Guided Science Inquiry Instruction with Students with Special Education Needs. R2Ed Working Paper 2015-1

ERIC Educational Resources Information Center

White, Andrew S.; Kunz, Gina M.; Whitham, Rebekah; Houston, Jim; Nugent, Gwen

2015-01-01

National and state educational mandates require students achieve proficiency in not only science content, but also "science inquiry", or those process skills associated with science (National Research Council, 2011; Next Generation Science Standards, 2013). Science inquiry instruction has been shown to improve student achievement and…

Sharpening the lens of culturally responsive science teaching: a call for liberatory education for oppressed student groups

NASA Astrophysics Data System (ADS)

Codrington, Jamila

2014-12-01

Wallace and Brand's framing of culturally responsive science teaching through the lens of critical race theory honors the role of social justice in science education. In this article, I extend the discussion through reflections on the particular learning needs of students from oppressed cultural groups, specifically African Americans. Understanding the political nature of education, I explore the importance of transforming science education so that it has the capacity to provide African American students with tools for their own liberation. I discuss Wallace and Brand's research findings in relation to the goal of liberatory education, and offer ideas for how science educators might push forward this agenda as they strive for culturally responsive teaching with oppressed student groups.

Upper Secondary School Pupils' Attitudes towards Natural Science

ERIC Educational Resources Information Center

Akarsu, Bayram; Kariper, Afsin

2013-01-01

Students' attitudes towards natural science constitute an important area in science education as fewer students are interested in natural science and they do not choose corresponding science disciplines in postsecondary education. The current study reports preliminary results of a survey on high school students' interests and attitudes towards…

Examining Differences in Middle School Student Achievement on a Criterion-Referenced Competency Test (CRCT) in Science

ERIC Educational Resources Information Center

Rich, Jamie; Duncan, Dennis W.; Navarro, Maria; Ricketts, John C.

2009-01-01

Many authors have posited that agricultural education curriculum in middle schools may enhance student performance in science. To determine the effect that agricultural education curriculum has upon Georgia middle schools' student performance in science, this descriptive study compared science knowledge among middle school students in Georgia who…

The Impact of Agricultural Science Education on Performance in a Biology Course

ERIC Educational Resources Information Center

Ernest, Byron L.

2014-01-01

The lack of student achievement in science is often cited in U.S. educational reports. At the study site, low student achievement in science has been an ongoing concern for administrators. The purpose of this mixed methods study was to investigate the impact of agricultural science education on student performance in a Biology course. Vygotsky's…

The perspectives and experiences of African American students in an informal science program

NASA Astrophysics Data System (ADS)

Bulls, Domonique L.

Science, technology, engineering, and mathematics (STEM) fields are the fastest growing sectors of the economy, nationally and globally. In order for the United States (U.S.) to maintain its competitiveness, it is important to address STEM experiences at the precollege level. In early years, science education serves as a foundation and pipeline for students to pursue STEM in college and beyond. Alternative approaches to instruction in formal classrooms have been introduced to engage more students in science. One alternative is informal science education. Informal science education is an avenue used to promote science education literacy. Because it is less regulated than science teaching in formal classroom settings, it allows for the incorporation of culture into science instruction. Culturally relevant science teaching is one way to relate science to African American students, a population that continually underperforms in K-12 science education. This study explores the science perspectives and experiences of African American middle school students participating in an informal science program. The research is framed by the tenets of culturally relevant pedagogy and shaped by the following questions: (1) What specific aspects of the Carver Program make it unique to African American students? (2) How is culturally relevant pedagogy incorporated into the informal science program? (3) How does the incorporation of culturally relevant pedagogy into the informal science program influence African American students' perceptions about science? The findings to the previously stated questions add to the limited research on African American students in informal science learning environments and contribute to the growing research on culturally relevant science. This study is unique in that it explores the cultural components of an informal science program.

Graduate Experience in Science Education: the development of a science education course for biomedical science graduate students.

PubMed

Markowitz, Dina G; DuPré, Michael J

2007-01-01

The University of Rochester's Graduate Experience in Science Education (GESE) course familiarizes biomedical science graduate students interested in pursuing academic career tracks with a fundamental understanding of some of the theory, principles, and concepts of science education. This one-semester elective course provides graduate students with practical teaching and communication skills to help them better relate science content to, and increase their confidence in, their own teaching abilities. The 2-h weekly sessions include an introduction to cognitive hierarchies, learning styles, and multiple intelligences; modeling and coaching some practical aspects of science education pedagogy; lesson-planning skills; an introduction to instructional methods such as case studies and problem-based learning; and use of computer-based instructional technologies. It is hoped that the early development of knowledge and skills about teaching and learning will encourage graduate students to continue their growth as educators throughout their careers. This article summarizes the GESE course and presents evidence on the effectiveness of this course in providing graduate students with information about teaching and learning that they will use throughout their careers.

Graduate Experience in Science Education: The Development of a Science Education Course for Biomedical Science Graduate Students

PubMed Central

DuPré, Michael J.

2007-01-01

The University of Rochester's Graduate Experience in Science Education (GESE) course familiarizes biomedical science graduate students interested in pursuing academic career tracks with a fundamental understanding of some of the theory, principles, and concepts of science education. This one-semester elective course provides graduate students with practical teaching and communication skills to help them better relate science content to, and increase their confidence in, their own teaching abilities. The 2-h weekly sessions include an introduction to cognitive hierarchies, learning styles, and multiple intelligences; modeling and coaching some practical aspects of science education pedagogy; lesson-planning skills; an introduction to instructional methods such as case studies and problem-based learning; and use of computer-based instructional technologies. It is hoped that the early development of knowledge and skills about teaching and learning will encourage graduate students to continue their growth as educators throughout their careers. This article summarizes the GESE course and presents evidence on the effectiveness of this course in providing graduate students with information about teaching and learning that they will use throughout their careers. PMID:17785406

Assessing the impact of Native American elders as co-educators for university students in STEM

NASA Astrophysics Data System (ADS)

Alkholy, Sarah Omar

Introduction: Minorities are underrepresented in the science, technology, engineering, and mathematics (STEM) workforce, post-secondary STEM education, and show high academic attrition rates. Academic performance and retention improve when culturally relevant support is provided. The interface of Western Science and Indigenous Science provides an opportunity for bridging this divide. This three parts project is an example of Community-based participatory research (CBPR) that aims to support academic institutions that serve minority students in STEM, and implement educational components (pedagogy) to serve the needs of the underserved community. Method: Part 1: was a cross-sectional used a survey given to participants designed to assess prevalence of natural health products use by students, and to determine how students learn about NHPs. Part 2: was a longitudinal survey pilot study based upon an online STEM course offer at four universities to determine the differences between U.S. vs. Canadian and minority vs. non-minority university students regarding their perceptions of traditional Elders as STEM co-educators, interest in STEM, and science identity by using a pre-and post- course survey. Part 3: was a longitudinal quasi-experiment based upon an online STEM course offered at four universities show what Indigenous science claims regarding: Elders are viewed as valuable STEM co-educators; Elders increase student interest in STEM; students exposed to Indigenous science improve their identity as a scientist; students exposed to Indigenous Science/Elders show improved learning outcomes. Result: We found that Native/Aboriginal students learn information about natural health products from traditional Elders significantly more so than non-Native/Aboriginal students. There were no statistically significant results from the pilot study. Findings from the quasi-experiment show that students taught with Indigenous science Elder co-educators have significantly greater interest in STEM than students not exposed to Elders' teachings. Minority students reported significantly less self-identification as a scientist than did White students at pre-course, but report similar identity as a scientist to White students post-course. Discussion: Future work should investigate the role of Elder traditional educators to convey NHPs information directed specifically to Aboriginal university students. We expect that Elder co-educators may then impact student science identity and interest in STEM. We expect that Elder co-educators may then impact student science identity and interest in STEM. Although there were no statistically significant results from the pilot study, the observed trends suggest that Indigenous science Elder educators merit involvement in novel pedagogical approaches and delivery modalities to reach minority students and to increase students' interest in STEM. From quasi-experiment we attribute these findings to the impact of culturally competent course content to minority students especially, in a post-secondary STEM class. This work establishes the need for convergence of Indigenous science and Western STEM in academia.

Development and Evaluation of Food Safety Modules for K-12 Science Education

ERIC Educational Resources Information Center

Chapin, Travis K.; Pfuntner, Rachel C.; Stasiewicz, Matthew J.; Wiedmann, Martin; Orta-Ramirez, Alicia

2015-01-01

Career and educational opportunities in food science and food safety are underrecognized by K-12 students and educators. Additionally, misperceptions regarding nature of science understanding persist in K-12 students despite being emphasized as an important component of science education for over 100 y. In an effort to increase awareness…

Educators of Prospective Teachers Hesitate to Embrace Evolution Due to Deficient Understanding of Science/Evolution and High Religiosity

PubMed Central

Paz-y-Miño-C, Guillermo

2016-01-01

Acceptance of evolution by educators of prospective teachers remains superficially studied despite their role in having mentored schoolteachers whose weak support of evolution is known. Here, we contrast the views of New England educators of prospective teachers (n=62; 87% Ph. D./doctorate holders in 32 specializations) with those of the general faculty (n=244; 93% Ph.D./doctorate holders in 40 disciplines), both members of 35 colleges and universities, and with college students (n=827; subsample of the 35 institutions) who were polled on: (1) the controversy evolution vs. creationism vs. intelligent design (ID), (2) their understanding of how science/evolution works, and (3) their religiosity. The educators held intermediate positions in respect to the general faculty and the students: 94% of the general faculty, 75% of the educators, and 63% of the students said they accepted evolution openly; and 82% of the general faculty, 71% of the educators, and 58% of the students thought that evolution is definitely true. Only 3% of the general faculty in comparison to 19% of the educators and 24% of the students thought that evolution and creationism are in harmony. Although 93% of the general faculty, educators, and students knew that evolution relies on common ancestry, 26% of the general faculty, 45% of the educators, and 35% of the students did not know that humans are apes. Remarkably, 15% of the general faculty, 32% of the educators, and 35% of the students believed, incorrectly, that the origin of the human mind cannot be explained by evolution; and 30% of the general faculty, 59% of the educators, and 75% of the students were Lamarckian (=believed in inheritance of acquired traits). For science education: 96% of the general faculty, 86% of the educators, and 71% of the students supported the exclusive teaching of evolution, while 4% of the general faculty, 14% of the educators, and 29% of the students favored equal time to evolution, creationism and ID; note that 92% of the general faculty, 82% of the educators, and 50% of the students perceived ID as either not scientific and proposed to counter evolution based on false claims or as religious doctrine consistent with creationism. The general faculty was the most knowledgeable about science/evolution and the least religious (science index, SI=2.49; evolution index, EI= 2.49; and religiosity index, RI=0.49); the educators reached lower science/evolution but higher religiosity indexes than the general faculty (SI=1.96, EI=1.96, and RI=0.83); and the students were the least knowledgeable about science/ evolution and the most religious (SI=1.80, EI=1.60, and RI=0.89). Understanding of science and evolution were inversely correlated with level of religiosity, and understanding of evolution increased with increasing science literacy. Interestingly, ≈36% of the general faculty, educators and students considered religion to be very important in their lives, and 17% of the general faculty, 34% of the educators, and 28% of the students said they prayed daily. Assessing the perception of evolution by educators of prospective teachers vs. the general faculty and the students of New England, one of the historically most progressive regions in the U.S., is crucial for determining the magnitude of the impact of creationism and ID on attitudes toward science, reason, and education in science. PMID:26949442

Fostering Spaces of Student Ownership in Middle School Science

ERIC Educational Resources Information Center

O'Neill, Tara B.

2010-01-01

A critical challenge in urban science education is determining how to provide empowering science learning experiences for all students. In an effort to address the achievement gap in science education, I have focused on the concept of ownership, specifically when and how students gain ownership in science learning. This paper presents a teacher…

Effect of a Problem Based Simulation on the Conceptual Understanding of Undergraduate Science Education Students

ERIC Educational Resources Information Center

Kumar, David Devraj; Sherwood, Robert D.

2007-01-01

A study of the effect of science teaching with a multimedia simulation on water quality, the "River of Life," on the science conceptual understanding of students (N = 83) in an undergraduate science education (K-9) course is reported. Teaching reality-based meaningful science is strongly recommended by the National Science Education Standards…

A program to enhance k-12 science education in ten rural New York school districts.

PubMed

Goodell, E; Visco, R; Pollock, P

1999-04-01

The Rural Partnership for Science Education, designed by educators and scientists in 1991 with funding from the National Institutes of Health, works in two rural New York State counties with students and their teachers from kindergarten through grade 12 to improve pre-college science education. The Partnership is an alliance among ten rural New York school districts and several New York State institutions (e.g., a regional academic medical center; the New York Academy of Sciences; and others), and has activities that involve around 4,800 students and 240 teachers each year. The authors describe the program's activities (e.g., summer workshops for teachers; science exploration camps for elementary and middle-school students; enrichment activities for high school students). A certified science education specialist directs classroom demonstrations throughout the academic year to support teachers' efforts to integrate hands-on activities into the science curriculum. A variety of evaluations over the years provides strong evidence of the program's effectiveness in promoting students' and teachers' interest in science. The long-term goal of the Partnership is to inspire more rural students to work hard, learn science, and enter the medical professions.

Research Trends in Science Education from 2008 to 2012: A systematic content analysis of publications in selected journals

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Lin, Tzu-Chiang; Lin, Tzung-Jin; Tsai, Chin-Chung

2014-05-01

This paper presents the third study of research trends in science education. In this review, a total of 990 papers published in the International Journal of Science Education, the Journal of Research in Science Teaching, and Science Education from 2008 to 2012 were analyzed. The results indicate that in the recent five years (2008-2012), the top three research topics in the published papers were those regarding the context of students' learning, science teaching, and students' conceptual learning. The changes in the most popular research topics in the past 15 years also evidentially indicate shifts in the journals' preferences and researchers' interest. For example, in 2003-2007, context of students' learning replaced students' conceptual learning, which was the most published research topic from 1998 to 2002. The research topic of students' learning contexts continued to rank the first in 2008-2012. Moreover, there was an increasing trend of research papers regarding science teaching from 1998 to 2012. The analysis of highly cited papers revealed that research topics such as argumentation, inquiry-based learning, and scientific modeling were recently highlighted by science educators. In recent 15 years, productive researchers' publications also focused on the topics about context of students' learning, science teaching, and students' conceptual learning.

Science Anxiety and Gender in Students Taking General Education Science Courses

NASA Astrophysics Data System (ADS)

Udo, M. K.; Ramsey, G. P.; Mallow, J. V.

2004-12-01

Earlier studies [Mallow, J. V. (1994). Gender-related science anxiety: A first binational study. Journal of Science Education and Technology 3: 227-238; Udo, M. K., Ramsey, G. P., Reynolds-Alpert, S., and Mallow, J. V. (2001). Does physics teaching affect gender-based science anxiety? Journal of Science Education and Technology 10: 237-247] of science anxiety in various student cohorts suggested that nonscience majors were highly science anxious (SA), regardless of what science courses they were taking. In this study, we investigated science anxiety in a cohort consisting mostly of nonscience majors taking general education science courses. Regression analysis shows that the leading predictors of science anxiety are (i) nonscience anxiety and (ii) gender, as they were for different cohorts in the earlier studies. We confirm earlier findings that females are more SA than males. Chi-square analysis of acute science anxiety shows an amplification of these differences. We found statistically significant levels of science anxiety in humanities and social science students of both genders, and gender differences in science anxiety, despite the fact that the students were all enrolled in general education science courses specifically designed for nonscience majors. We found acute levels of anxiety in several groups, especially education, nursing, and business majors. We describe specific interventions to alleviate science anxiety.

Exploring Aesthetic Experiences in the Undergraduate General Education Science Classroom

NASA Astrophysics Data System (ADS)

Biscotte, Stephen Michael

Citizens must have a minimal level of STEM-literacy to work alongside scientists to tackle both current and future global challenges. How can general education, the one piece of the undergraduate experience every student completes, contribute to this development? And science learning is dependent on having transformative aesthetic experiences in the science classroom. These memorable experiences involve powerful connection between students and the world around them. If these types of experiences are necessary for science learning and growth, are students in introductory science courses having them? If so, what relationship might they have with students' desires to pursue further science study? This dissertation explores these questions through two manuscripts. The first, a theoretical piece published in the Journal of General Education in 2015, argues that non-STEM students must have transformative aesthetic experiences in their undergraduate general education science course to develop the level of understanding needed to engage with challenging scientific issues in the future. This claim is substantiated by bringing together the work of Dewey and Deweyan scholars on the nature and impact of aesthetic experiences in science and science education with the general education reform efforts and desired outcomes for an informed and engaged citizenry. The second manuscript, an empirical piece, explores the lived experience of non-STEM students in an introductory geosciences course. A phenomenological research methodology is deployed to capture the 'essence' of the lived experience of a STEM-philic student in general education science. In addition, Uhrmacher's CRISPA framework is used to analyze the participants' most memorable course moments for the presence or absence of aesthetic experiences. In explication of the data, it shows that students are in fact having aesthetic experiences (or connecting to prior aesthetic experiences) and these experiences are related to their desires to pursue further STEM study.

Making science education meaningful for American Indian students: The effect of science fair participation

NASA Astrophysics Data System (ADS)

Welsh, Cynthia Ann

Creating opportunities for all learners has not been common practice in the United States, especially when the history of Native American educational practice is examined (Bull, 2006; Chenoweth, 1999; Starnes, 2006a). The American Indian Science and Engineering Society (AISES) is an organization working to increase educational opportunity for American Indian students in science, engineering, and technology related fields (AISES, 2005). AISES provides pre-college support in science by promoting student science fair participation. The purpose of this qualitative research is to describe how American Indian student participation in science fairs and the relationship formed with their teacher affects academic achievement and the likelihood of continued education beyond high school. Two former American Indian students mentored by the principal investigator participated in this study. Four ethnographic research methods were incorporated: participant observation, ethnographic interviewing, search for artifacts, and auto-ethnographic researcher introspection (Eisenhart, 1988). After the interview transcripts, photos documenting past science fair participation, and researcher field notes were analyzed, patterns and themes emerged from the interviews that were supported in literature. American Indian academic success and life long learning are impacted by: (a) the effects of racism and oppression result in creating incredible obstacles to successful learning, (b) positive identity formation and the importance of family and community are essential in student learning, (c) the use of best practice in science education, including the use of curricular cultural integration for American Indian learners, supports student success, (d) the motivational need for student-directed educational opportunities (science fair/inquiry based research) is evident, (e) supportive teacher-student relationships in high school positively influences successful transitions into higher education. An overarching theme presented itself embedded within all themes: the importance of understanding the continued resiliency of the American Indian culture as it relates to success. Ultimately, for long-lasting change to occur, teachers and the community must focus on eliminating educational barriers, while supporting academic success, in order to initiate renewal and school wide change.

Science Identity in Informal Education

NASA Astrophysics Data System (ADS)

Schon, Jennifer A.

The national drive to increase the number of students pursuing Science Technology, Engineering, and Math (STEM) careers has brought science identity into focus for educators, with the need to determine what encourages students to pursue and persist in STEM careers. Science identity, the degree to which students think someone like them could be a scientist is a potential indicator of students pursuing and persisting in STEM related fields. Science identity, as defined by Carlone and Johnson (2007) consists of three constructs: competence, performance, and recognition. Students need to feel like they are good at science, can perform it well, and that others recognize them for these achievements in order to develop a science identity. These constructs can be bolstered by student visitation to informal education centers. Informal education centers, such as outdoor science schools, museums, and various learning centers can have a positive impact on how students view themselves as scientists by exposing them to novel and unique learning opportunities unavailable in their school. Specifically, the University of Idaho's McCall Outdoor Science School (MOSS) focuses on providing K-12 students with the opportunity to learn about science with a place-based, hands-on, inquiry-based curriculum that hopes to foster science identity development. To understand the constructs that lead to science identity formation and the impact the MOSS program has on science identity development, several questions were explored examining how students define the constructs and if the MOSS program impacted how they rate themselves within each construct. A mixed-method research approach was used consisting of focus group interviews with students and pre, post, one-month posttests for visiting students to look at change in science identity over time. Results from confirmatory factor analysis indicate that the instrument created is a good fit for examining science identity and the associated constructs for students attending the MOSS residential program. Analysis of results from paired-samples t-test indicates that MOSS does contribute to a positive change in science identity and this change does persist one month following the visit to MOSS, although a slight decline is seen. The results from this research and creation of this instrument provide useful tools for educators interested in increasing their students' science identity.

Recovering Knowledge for Science Education Research: Exploring the "Icarus Effect" in Student Work

ERIC Educational Resources Information Center

Georgiou, Helen; Maton, Karl; Sharma, Manjula

2014-01-01

Science education research has built a strong body of work on students' understandings but largely overlooked the nature of science knowledge itself. Legitimation Code Theory (LCT), a rapidly growing approach to education, offers a way of analyzing the organizing principles of knowledge practices and their effects on science education. This…

The science experience: The relationship between an inquiry-based science program and student outcomes

NASA Astrophysics Data System (ADS)

Poderoso, Charie

Science education reforms in U.S. schools emphasize the importance of students' construction of knowledge through inquiry. Organizations such as the National Science Foundation (NSF), the National Research Council (NRC), and the American Association for the Advancement of Science (AAAS) have demonstrated a commitment to searching for solutions and renewed efforts to improve science education. One suggestion for science education reform in U.S. schools was a transition from traditional didactic, textbook-based to inquiry-based instructional programs. While inquiry has shown evidence for improved student learning in science, what is needed is empirical evidence of those inquiry-based practices that affect student outcomes in a local context. This study explores the relationship between instructional programs and curricular changes affecting student outcomes in the Santa Ana Unified District (SAUSD): It provides evidence related to achievement and attitudes. SAUSD employs two approaches to teaching in the middle school science classrooms: traditional and inquiry-based approaches. The Leadership and Assistance for Science Education Reform (LASER) program is an inquiry-based science program that utilizes resources for implementation of the University of California Berkeley's Lawrence Hall of Science Education for Public Understanding Program (SEPUP) to support inquiry-based teaching and learning. Findings in this study provide empirical support related to outcomes of seventh-grade students, N = 328, in the LASER and traditional science programs in SAUSD.

Making Learning Interesting and Its Application to the Science Classroom

ERIC Educational Resources Information Center

Jack, Brady Michael; Lin, Huann-shyang

2017-01-01

Generations of students are graduating from secondary school disinterested in post-secondary study of science or pursuing careers in science-related fields beyond formal education. We propose that destabilising such disinterest among future students requires science educators to begin listening to secondary school students regarding their views of…

The effects of peer-mediated embedded instruction on inclusive inquiry science for students with severe intellectual disabilities

NASA Astrophysics Data System (ADS)

Jimenez, Bree Ann

There is a growing emphasis on meeting the diverse educational needs of all students which has drawn attention towards inclusive education. The number of students with severe disabilities receiving instruction in inclusive education settings has steadily increased over the past decade (U.S. Department of Education, 2004). Limited research has been conducted on the acquisition of grade-aligned science skills for students with severe disabilities (Browder et al., in press; Courtade et al., in press, Jimenez et al., in press), and even more limited on academic skills in inclusive settings (Carter et al., 2007; Dugan et al., 1995; Jameson et al., 2009). The current study examined the effects of peer-mediated time delay instruction to teach science responses and KWHL chart responses during inclusive inquiry science lessons to students with severe intellectual disabilities. Six general education peers were trained to implement an embedded constant time delay procedure during three science units with five students with severe disabilities. Results indicated that all five students increased the number of correct science responses during all three science units. In addition, all six peers were able to implement the intervention with high fidelity. Finally, high levels of social validity were reported by peers, as well as the general and special education teachers.

If We Teach Them, They Can Learn: Young Students Views of Nature of Science during an Informal Science Education Program

ERIC Educational Resources Information Center

Quigley, Cassie; Pongsanon, Khemmawadee; Akerson, Valarie L.

2011-01-01

There have been substantial reform efforts in science education to improve students' understandings of science and its processes and provide continual support for students becoming scientifically literate (AAAS, "Benchmarks for science literacy," Oxford University Press, New York, 1993; NRC, National Academy Press, Washington, DC, 1996; NSTA,…

The Impact of Agricultural Science Education on Performance in a Biology Course

NASA Astrophysics Data System (ADS)

Ernest, Byron L.

The lack of student achievement in science is often cited in U.S. educational reports. At the study site, low student achievement in science has been an ongoing concern for administrators. The purpose of this mixed methods study was to investigate the impact of agricultural science education on student performance in a Biology course. Vygotsky's constructivist theory and Gardner's multiple intelligences theory provided the framework for the study. The quantitative research question examined the relationship between the completion of Fundamentals of Agriculture Science and Business course and student performance in Biology I. Teacher perceptions and experiences regarding the integration of science and agricultural curriculum and traditional science curriculum were examined qualitatively. A sequential explanatory design was employed using 3 years of data collected from 486 high school students and interviews with 10 teachers. Point-biserial correlation and chi square tests revealed statistically significant relationships between whether or not students completed Fundamentals of Agriculture Science and Business and Biology I course performance, as measured by the end of course assessment and the course grade. In the qualitative sequence, typological and inductive data analyses were applied to the interview data, and themes of student impact and teacher experience emerged. Social change implications may be possible through improved science education for students in this program. Agriculture science courses may be used to facilitate learning of complex science concepts, designing teacher collaboration and professional development for teaching science in a relevant context, and resultant improved student performance in science.

Development of Science and Mathematics Education System Including Teaching Experience of Students in Local Area

NASA Astrophysics Data System (ADS)

Kage, Hiroyuki

New reformation project on engineering education, which is supported from 2005 to 2008FY by Support Program for Contemporary Educational Needs of Ministry of Education, Culture, Sports, Science and Technology, started in Kyushu Institute of Technology. In this project, teaching experience of students is introduced into the curriculum of Faculty of Engineering. In the curriculum students try to prepare teaching materials and to teach local school pupils with them by themselves. Teaching experience is remarkably effective for them to strengthen their self-dependence and learning motivation. Science Education Center, Science Laboratory and Super Teachers College were also organized to promote the area cooperation on the education of science and mathematics.

Identifying Internet Sites to Coordinate with National Science Education Standards

ERIC Educational Resources Information Center

Fehrenbach, Carolyn R.; Morris, Maxine G.

2004-01-01

Identifying Internet sites to coordinate with National Science Education Standards can be challenging for teachers and students. By identifying quality free Internet sites in science, teachers and students can use the extensive resources of the Internet to enhance learning and instruction while meeting National Science Education Content Standards…

In Support of Access and Inclusion: Joint Professional Development for Science and Special Educators

ERIC Educational Resources Information Center

Brusca-Vega, Rita; Alexander, Jan; Kamin, Colleen

2014-01-01

Collaborative professional development of science and special educators leads to improved access and inclusion of students with disabilities. Yet, despite poor science achievement of students with disabilities, their increasing presence in general education science classrooms, and research that demonstrates effective teaching strategies for…

Formative Assessment to Support Students' Competences in Inquiry-Based Science Education

ERIC Educational Resources Information Center

Grob, Regula; Holmeier, Monika; Labudde, Peter

2017-01-01

Inquiry-based education has been part of innovative science teaching for the last few decades. With the competence orientation now underlying many national curricula, one of the emerging questions is how the development of student competences can be fostered in the context of inquiry-based science education. One approach to supporting students in…

The Effect of Guided-Inquiry Laboratory Experiments on Science Education Students' Chemistry Laboratory Attitudes, Anxiety and Achievement

ERIC Educational Resources Information Center

Ural, Evrim

2016-01-01

The study aims to search the effect of guided inquiry laboratory experiments on students' attitudes towards chemistry laboratory, chemistry laboratory anxiety and their academic achievement in the laboratory. The study has been carried out with 37 third-year, undergraduate science education students, as a part of their Science Education Laboratory…

The Next Generation Laboratory Interface for Students with Blindness or Low Vision in the Science Laboratory

ERIC Educational Resources Information Center

Supalo, Cary A.

2012-01-01

Entry into science education for students with blindness or low vision can present economic and technological barriers to access. This manuscript discusses funding hands-on student experiences in middle school, high school, and post-secondary education. Further, the use of access technologies recently developed for science education is also…

Knowledge first, critique later: why it is a mistake for science education to encourage junior students to discuss, challenge and debate scientific knowledge.

PubMed

Charlton, Bruce G

2010-02-01

In UK educational circles it has long been regarded as a platitude that a good scientific education at school and undergraduate level should aim to teach critical thinking and encourage students to challenge mainstream science, debate scientific issues and express their personal opinions. However, I believe that this strategy is usually mistaken, and that such educational strategies probably do more harm than good. For most students, at most levels, for most of the time; science education should be focused on the inculcation of established knowledge. This is for the simple reason that critique is educationally-counterproductive and scientifically-worthless unless or until underpinned by adequate knowledge and competence. Instead, for the early years of science teaching, the basic assumption ought to be that the student is there to learn science; not to confront science. The basic attitude being taught should be one of humility before the science being studied.

Science education policy for emergency, conflict, and post-conflict: An analysis of trends and implications for the science education program in Uganda

NASA Astrophysics Data System (ADS)

Udongo, Betty Pacutho

This study analyzes the impact of armed conflicts on the development of education policy and particularly science education program in Uganda. Since independence from the British colonial rule, Uganda has experienced a series of armed conflicts, with the most devastating being the 21 years of conflict in Northern Uganda. The research study was guided by the following questions: (1) What is the level of government funding towards improving science education program in Uganda? (2) Have recent initiatives, such as free Primary and Secondary education, compulsory science, and 75% sponsorship for science-based courses, had a measurable impact on the proportion of students from the conflict-affected regions who enter tertiary institutions to pursue science and technology programs? (3) To what extent do the Ugandan Education Policy and, in particular, the Science Education Policy effectively address the educational needs of students affected by armed conflicts? The study employed a mixed method design where both quantitative and qualitative data were collected and analyzed. Quantitative data were obtained from a comprehensive search of policy documents and content analysis of literature on education policy, science education programs, and impact of conflicts on educational delivery. Qualitative data were obtained from surveys and interviews distributed to policy makers, central government and the local government officials, teachers, and students from the war-ravaged Northern Uganda. Analysis of policy documents and respondents' views revealed that Uganda does not have a science education policy, and the present education policy does not fully address the educational needs of students studying in conflict-affected regions. It was further observed that fewer students from the conflict-affected regions qualify for government scholarship to study science courses in higher institutions of learning. The study recommended the following policy interventions: (a) affirmative admission in higher institutions of learning, (b) curriculum reform, (c) professional development of teachers, (d) school security and safety, (e) science and technology education, and (f) increased funding for emergency education. The study proposes a model of "Schools as Islands of Peace and Hope" with science education as the tool for post-conflict economic recovery, as a blue print for emergency education policy framework.

Earth at Rest. Aesthetic Experience and Students' Grounding in Science Education

NASA Astrophysics Data System (ADS)

Østergaard, Edvin

2017-07-01

Focus of this article is the current situation characterized by students' de-rootedness and possible measures to improve the situation within the frame of education for sustainable development. My main line of argument is that science teachers can practice teaching in such a way that students are brought in deeper contact to the environment. I discuss efforts to promote aesthetic experience in science class and in science teacher education. Within a wide range of definitions, my main understanding of aesthetic experience is that of pre-conceptual experience, relational to the environment and incorporated in students' embodied knowledge. I ground the idea of Earth at rest in Husserl's phenomenological philosophy and Heidegger's notion of science' deprivation of the world. A critique of the ontological reversal leads to an ontological re-reversal that implies giving lifeworld experience back its value and rooting scientific concepts in students' everyday lives. Six aspects of facilitating grounding in sustainability-oriented science teaching and teacher education are highlighted and discussed: students' everyday knowledge and experience, aesthetic experience and grounding, fostering aesthetic sensibility, cross-curricular integration with art, ontological and epistemological aspects, and belongingness and (re-)connection to Earth. I conclude that both science students and student-teachers need to practice their sense of caring and belonging, as well as refining their sensibility towards the world. With an intension of educating for a sustainable development, there is an urgent need for a critical discussion in science education when it comes to engaging learners for a sustainable future.

Student Attitudes, Student Anxieties, and How to Address Them; A handbook for science teachers

NASA Astrophysics Data System (ADS)

Kastrup, Helge

2016-02-01

This book is based on a commitment to teaching science to everybody. What may work for training professional scientists does not work for general science education. Students bring to the classrooms preconceived attitudes, as well as the emotional baggage called 'science anxiety'. Students may regard science as cold, unfriendly, and even inherently hostile and biased against women. This book has been designed to deal with each of these issues and results from research in both Denmark and the USA. The first chapter discusses student attitudes towards science and the second discusses science anxiety. The connection between the two is discussed before the introduction of constructivism as a pedagogy that can aid science learning if it also addresses attitudes and anxieties. Much of the book elucidates what the authors have learned as science teachers and science education researchers. They studied various groups including university students majoring in the sciences, mathematics, humanities, social sciences, business, nursing, and education; high-school students; teachers' seminary students; science teachers at all levels from middle school through college; and science administrators. The insights of these groups constitute the most important feature of the book, and by sharing them, the authors hope to help their fellow science teachers to understand student attitudes about science, to recognize the connections between these and science anxiety, and to see how a pedagogy that takes these into account can improve science learning.

A Trial of PBL Education with Emphasis on Improving Practical Competence of Engineering Students-A Trial Connected with the Support for Science Education in Elementary School

NASA Astrophysics Data System (ADS)

Tsutsumi, Hirotaka; Nikkuni, Hiroyuki; Kitakoshi, Daisuke; Yasuda, Toshitaka; Kikuchi, Akira; Mitani, Tomoyo

Recently Colleges of technology as well as universities have some experience-oriented classes in sciences for elementary school students. These have proved to be successful as good motivation for students in the primary education to be engineers. This research has tried the PBL education, which combined the Support of Science Education in Elementary School and the improvement of students‧ practical competence in their careers. The support of science education in elementary school was carried out by using LEGO blocks, widely utilized in the educational researches of robots, and was conducted in the practical class with the autonomous robots. Finally, the method for the class was evaluated by the elementary school students on the basis of the questionnaire.

Issues of teaching science to nurses in the tertiary sector

NASA Astrophysics Data System (ADS)

Strube, Paul

1991-12-01

The shift of nurse education from the hospitals to higher education institutions has resulted in a large pool of students within the Universities requiring basic science instruction. Most of these students are female, often mature age, with limited science backgrounds. This paper discusses the type of science education demanded by the nursing profession, the view of science as a subject held by these students, and the key role played by constructivist thinking in dealing with both of these.

Linking Science Education to the Workplace

NASA Astrophysics Data System (ADS)

Hurd, Paul Dehart

1998-12-01

This article examines the issue of linking education in the sciences with the world of work for all students. Traditionally, science teaching has been limited to preparing student for research career in science at the university level. The reform movement in science education is focused on intellectual skills that serve to fortify the human capital of all students and the economic productivity of the nation. The educational issue arises from evolutionary changes that are taking place in the practice of science, the development of a global economy, the nation's entrance into an Information Age, and the changing nature of the workplace. To identify and integrate these factors in the practice of science teaching is the goal of this article.

Perceptions of Secondary Science Educators of Limited English Proficient (LEP) Learners in Their Classrooms

ERIC Educational Resources Information Center

Hollenbeck, James; Hristova-Hollenbeck, Darina Z.

2008-01-01

Most information on the teaching of ESL/LEP [English as a Second Language/Limited English Language] students is directed towards elementary students and academic areas other than science. Secondary science teachers need research and information on teaching ESL/LEP students. Secondary science educators in the Louisville Metropolitan area were…

Students' Representations of Scientific Practice during a Science Internship: Reflections from an Activity-Theoretic Perspective

ERIC Educational Resources Information Center

Hsu, Pei-Ling; van Eijck, Michiel; Roth, Wolff-Michael

2010-01-01

Working at scientists' elbows is one suggestion that educators make to improve science education, because such "authentic experiences" provide students with various types of science knowledge. However, there is an ongoing debate in the literature about the assumption that authentic science activities can enhance students' understandings…

Survey on Teaching Science to K-12 Students with Disabilities: Teacher Preparedness and Attitudes

NASA Astrophysics Data System (ADS)

Kahn, Sami; Lewis, Anna R.

2014-12-01

Students with disabilities are increasingly included in general education science classrooms and are expected to demonstrate academic proficiency on standardized assessments. Teacher preparation and attitudes have been cited as major factors contributing to either the success or failure of students with disabilities in science. In order to assess the current state of what could be facilitative or inhibitory influences, a national online survey to which 1,088 K-12 science teachers responded was conducted. Mixed methods' analyses suggest that science teachers receive little formal training and feel underprepared to teach students with disabilities. Results identify specific gaps in science teachers' education, as well as attitudinal and institutional barriers that may inhibit students with disabilities' success. However, science teachers remain highly receptive to training and collaboration. Implications for science teacher education are discussed.

The effect of an STC orientation to teaching on student academic performance and motivation in secondary earth science

NASA Astrophysics Data System (ADS)

Corbin, Robert Arthur

Student achievement gaps among subgroups remain a prevalent and critical issue in urban education systems. In many classes these students remain the target---and often the victims---of test-driven curriculum. Missing from their urban education is one of the most important aspects of a true education: a sense of place within that education. Science educators and educational researchers might consider the benefits of Sociotransformative Constructivism (STC) as a means of creating a more meaningful education for urban youth. This study examined the impact of an STC teaching orientation on student motivation and academic performance in secondary earth science students. The mixed methodology employed used both qualitative and quantitative data. Data collection consisted of STC activities, survey data, classroom observations, studentgenerated work and threaded discussions. Statistical analysis included independent t-tests of pre- and post-instruction concept maps. The results showed that the adaptation of an STC teaching orientation has a positive impact on student motivation and performance in secondary earth science.

Engaging Students in Integrated Ethics Education: A Communication in the Disciplines Study of Pedagogy and Students' Roles in Society

ERIC Educational Resources Information Center

Canary, Heather E.; Taylor, Julie L.; Herkert, Joseph R.; Ellison, Karin; Wetmore, Jameson M.; Tarin, Carlos A.

2014-01-01

In this quasi-experimental study, we investigated two elements of ethics education: (1) how participating in ethics education influenced science and engineering graduate students' views of their roles in society, and (2) what students found most valuable and relevant. Participants were 98 graduate science and engineering students. Qualitative…

Evaluating Science Education Reform via Fourth-Grade Students' Image of Science Teaching

ERIC Educational Resources Information Center

Yilmaz, Hulya; Turkmen, Hakan; Pedersen, Jon E.

2008-01-01

The purpose of this study was to investigate fourth-grade students image of current science teaching by using a Draw-A-Science-Teacher-Test Checklist (DASTT-C), and give a glance whether the new restructured science education reform in Turkey is implemented successfully or not. Fifty-five (34 girls and 21 boys) fourth-grade students from three…

Integrated Design for Geoscience Education with Upward Bound Students

NASA Astrophysics Data System (ADS)

Cartwright, T. J.; Hogsett, M.; Ensign, T. I.; Hemler, D.

2009-05-01

Capturing the interest of our students is imperative to expand the conduit of future Earth scientists in the United States. According to the Rising Above the Gathering Storm report (2005), we must increase America's talent pool by improving K-12 mathematics and science education. Geoscience education is uniquely suited to accomplish this goal, as we have become acutely aware of our sensitivity to the destructive forces of nature. The educational community must take advantage of this heightened awareness to educate our students and ensure the next generation rebuilds the scientific and technological base on which our society rests. In response to these concerns, the National Science Foundation advocates initiatives in Geoscience Education such as IDGE (Integrated Design for Geoscience Education), which is an inquiry-based geoscience program for Upward Bound (UB) students at Marshall University in Huntington, West Virginia. The UB program targets low-income under-represented students for a summer academic-enrichment program. IDGE builds on the mission of UB by encouraging underprivileged students to investigate science and scientific careers. During the two year project, high school students participated in an Environmental Inquiry course utilizing GLOBE program materials and on-line learning modules developed by geoscience specialists in land cover, soils, hydrology, phenology, and meteorology. Students continued to an advanced course which required IDGE students to collaborate with GLOBE students from Costa Rica. The culmination of this project was an educational expedition in Costa Rica to complete ecological field studies, providing first-hand knowledge of the international responsibility we have as scientists and citizens of our planet. IDGE was designed to continuously serve educators and students. By coordinating initiatives with GLOBE headquarters and the GLOBE country community, IDGE's efforts have yielded multiple ways in which to optimize positive implications of the project. On-line learning modules continue to expand the number impacted by the program. Through collaboration with both GLOBE headquarters and the GLOBE Country Coordinator, an international teacher workshop in Costa Rica provided GLOBE training and equipment necessary for a true GLOBE student collaborative project. IDGE continues to expand the impacts beyond the limited participants involved in the program. Overall, the preliminary results show sufficient data that IDGE is successful in: exposing students to an inquiry-based hands-on science experience; providing a positive challenging yet enjoyable science experience for students; providing a science experience which was different than their formal science class; enhancing or maintaining positive attitudes and habits of mind about science; improving some student perceptions of science, science processes, and the nature of science; increasing the number of students considering science careers; enhanced student understanding of the importance of science knowledge and coursework for everyone. Through the practice of field research and inquiry-based learning, the quality of geoscience instruction is inspiring a new generation of geoscientists. This work was supported in part by the National Science Foundation under award #0735596. Any opinions, findings, conclusions or recommendations expressed in this material are those of the authors and do not necessarily reflect those of the National Science Foundation.

Education biographies from the science pipeline: An analysis of Latino/a student perspectives on ethnic and gender identity in higher education

NASA Astrophysics Data System (ADS)

Lujan, Vanessa Beth

This study is a qualitative narrative analysis on the importance and relevance of the ethnic and gender identities of 17 Latino/a (Hispanic) college students in the biological sciences. This research study asks the question of how one's higher education experience within the science pipeline shapes an individual's direction of study, attitudes toward science, and cultural/ethnic and gender identity development. By understanding the ideologies of these students, we are able to better comprehend the world-makings that these students bring with them to the learning process in the sciences. Informed by life history narrative analysis, this study examines Latino/as and their persisting involvement within the science pipeline in higher education and is based on qualitative observations and interviews of student perspectives on the importance of the college science experience on their ethnic identity and gender identity. The findings in this study show the multiple interrelationships from both Latino male and Latina female narratives, separate and intersecting, to reveal the complexities of the Latino/a group experience in college science. By understanding from a student perspective how the science pipeline affects one's cultural, ethnic, or gender identity, we can create a thought-provoking discussion on why and how underrepresented student populations persist in the science pipeline in higher education. The conditions created in the science pipeline and how they affect Latino/a undergraduate pathways may further be used to understand and improve the quality of the undergraduate learning experience.

Investigating the Role of Student Motivation in Computer Science Education through One-on-One Tutoring

ERIC Educational Resources Information Center

Boyer, Kristy Elizabeth; Phillips, Robert; Wallis, Michael D.; Vouk, Mladen A.; Lester, James C.

2009-01-01

The majority of computer science education research to date has focused on purely cognitive student outcomes. Understanding the "motivational" states experienced by students may enhance our understanding of the computer science learning process, and may reveal important instructional interventions that could benefit student engagement and…

Building Transferable Knowledge and Skills through an Interdisciplinary Polar Science Graduate Program

NASA Astrophysics Data System (ADS)

Culler, L. E.; Virginia, R. A.; Albert, M. R.; Ayres, M.

2015-12-01

Modern graduate education must extend beyond disciplinary content to prepare students for diverse careers in science. At Dartmouth, a graduate program in Polar Environmental Change uses interdisciplinary study of the polar regions as a core from which students develop skills and knowledge for tackling complex environmental issues that require cooperation across scientific disciplines and with educators, policy makers, and stakeholders. Two major NSF-funded initiatives have supported professional development for graduate students in this program, including an IGERT (Integrative Graduate Education and Research Traineeship) and leadership of JSEP's (Joint Science Education Project) Arctic Science Education Week in Greenland. We teach courses that emphasize the links between science and the human dimensions of environmental change; host training sessions in science communication; invite guest speakers who work in policy, academia, journalism, government research, etc.; lead an international field-based training that includes policy-focused meetings and a large outreach component; provide multiple opportunities for outreach and collaboration with local schools; and build outreach and education into graduate research programs where students instruct and mentor high school students. Students from diverse scientific disciplines (Ecology, Earth Science, and Engineering) participate in all of the above, which significantly strengthens their interdisciplinary view of polar science and ability to communicate across disciplines. In addition, graduate students have developed awareness, confidence, and the skills to pursue and obtain diverse careers. This is reflected in the fact that recent graduates have acquired permanent and post-doctoral positions in academic and government research, full-time teaching, and also in post-docs focused on outreach and science policy. Dartmouth's interdisciplinary approach to graduate education is producing tomorrow's leaders in science.

Views and Experiences of Third-Year, Early Childhood Education, University Students about Science Education in Junior and Senior High School

ERIC Educational Resources Information Center

Stylianou, Liana; Plakitsi, Katerina; Papantoniou, Georgia

2016-01-01

Research on Junior and Senior high school students' attitude toward SE (Science Education) courses focuses on students' attitudes, views, interests and perceptions stemming from their school experiences related to the courses. This study examines the way third-year students of the Early Childhood Education Department in Ioannina have viewed and…

An inclusive Research Education Community (iREC): Impact of the SEA-PHAGES program on research outcomes and student learning.

PubMed

Hanauer, David I; Graham, Mark J; Betancur, Laura; Bobrownicki, Aiyana; Cresawn, Steven G; Garlena, Rebecca A; Jacobs-Sera, Deborah; Kaufmann, Nancy; Pope, Welkin H; Russell, Daniel A; Jacobs, William R; Sivanathan, Viknesh; Asai, David J; Hatfull, Graham F

2017-12-19

Engaging undergraduate students in scientific research promises substantial benefits, but it is not accessible to all students and is rarely implemented early in college education, when it will have the greatest impact. An inclusive Research Education Community (iREC) provides a centralized scientific and administrative infrastructure enabling engagement of large numbers of students at different types of institutions. The Science Education Alliance-Phage Hunters Advancing Genomics and Evolutionary Science (SEA-PHAGES) is an iREC that promotes engagement and continued involvement in science among beginning undergraduate students. The SEA-PHAGES students show strong gains correlated with persistence relative to those in traditional laboratory courses regardless of academic, ethnic, gender, and socioeconomic profiles. This persistent involvement in science is reflected in key measures, including project ownership, scientific community values, science identity, and scientific networking. Copyright © 2017 the Author(s). Published by PNAS.

An inclusive Research Education Community (iREC): Impact of the SEA-PHAGES program on research outcomes and student learning

PubMed Central

Hanauer, David I.; Graham, Mark J.; Betancur, Laura; Bobrownicki, Aiyana; Cresawn, Steven G.; Garlena, Rebecca A.; Jacobs-Sera, Deborah; Kaufmann, Nancy; Pope, Welkin H.; Russell, Daniel A.; Jacobs, William R.; Sivanathan, Viknesh; Asai, David J.

2017-01-01

Engaging undergraduate students in scientific research promises substantial benefits, but it is not accessible to all students and is rarely implemented early in college education, when it will have the greatest impact. An inclusive Research Education Community (iREC) provides a centralized scientific and administrative infrastructure enabling engagement of large numbers of students at different types of institutions. The Science Education Alliance–Phage Hunters Advancing Genomics and Evolutionary Science (SEA-PHAGES) is an iREC that promotes engagement and continued involvement in science among beginning undergraduate students. The SEA-PHAGES students show strong gains correlated with persistence relative to those in traditional laboratory courses regardless of academic, ethnic, gender, and socioeconomic profiles. This persistent involvement in science is reflected in key measures, including project ownership, scientific community values, science identity, and scientific networking. PMID:29208718

Lunar and Planetary Science XXXV: Engaging K-12 Educators, Students, and the General Public in Space Science Exploration

NASA Technical Reports Server (NTRS)

2004-01-01

The session "Engaging K-12 Educators, Students, and the General Public in Space Science Exploration" included the following reports:Training Informal Educators Provides Leverage for Space Science Education and Public Outreach; Teacher Leaders in Research Based Science Education: K-12 Teacher Retention, Renewal, and Involvement in Professional Science; Telling the Tale of Two Deserts: Teacher Training and Utilization of a New Standards-based, Bilingual E/PO Product; Lindstrom M. M. Tobola K. W. Stocco K. Henry M. Allen J. S. McReynolds J. Porter T. T. Veile J. Space Rocks Tell Their Secrets: Space Science Applications of Physics and Chemistry for High School and College Classes -- Update; Utilizing Mars Data in Education: Delivering Standards-based Content by Exposing Educators and Students to Authentic Scientific Opportunities and Curriculum; K. E. Little Elementary School and the Young Astronaut Robotics Program; Integrated Solar System Exploration Education and Public Outreach: Theme, Products and Activities; and Online Access to the NEAR Image Collection: A Resource for Educators and Scientists.

Engaging Youth of Color in Applied Science Education and Public Health Promotion

ERIC Educational Resources Information Center

Sprague Martinez, Linda; Bowers, Edmond; Reich, Amanda J.; Ndulue, Uchenna J.; Le, Albert An; Peréa, Flavia C.

2016-01-01

Participation in inquiry-based science education, which focuses on student-constructed learning, has been linked to academic success. Whereas the benefits of this type of science education are evident, access to such high-quality science curriculum and programming is not equitable. Black and Latino students in particular have less access to…

Principles of Professionalism for Science Educators. National Science Teachers Association Position Statement

ERIC Educational Resources Information Center

National Science Teachers Association (NJ1), 2010

2010-01-01

Science educators play a central role in educating, inspiring, and guiding students to become responsible, scientifically literate citizens. Therefore, teachers of science must uphold the highest ethical standards of the profession to earn and maintain the respect, trust, and confidence of students, parents, school leaders, colleagues, and other…

The use of Second Life as an effective means of providing informal science education to secondary school students

NASA Astrophysics Data System (ADS)

Amous, Haytham

This research study evaluated the use of Second Life and its virtual museums as a means of providing effective informal science education for both junior high and high school students. This study investigated whether the attitudes of students toward science change as a result of scholastic exposure to the science museums in Second Life. The dependence between attitudes and learning styles was also investigated. The data gathered from the experiences and the perceptions of students using Second Life in informal science education were analyzed to address the questions of the study. The researcher used qualitative and quantitative research methodologies to investigate the research questions. The first and second research questions were quantitative and used TOSRA2 research instrument to assess attitude and perceptions and learning style questionnaire scores. The attitudes toward science before and after visiting the Second Life museums showed no significant change. A weak relationship between the attitudes toward science and the participants learning styles was found. The researcher therefore concluded that no relationship existed between the average of the TOSRA scores and the learning styles questionnaire scores. To address questions research three and four, a collective qualitative case study approach (Creswell, 2007), as well as a structured interviews focusing on the students' perspectives about using Second Life for informal science education was used. The students did not prefer informal science education using second life over formal education. This was in part attributed to the poor usability and/or familiarity with the program. Despite the students' technical difficulties confronted in visiting Second Life the perception of student about their learning experiences and the use of Second Life on informal science environment were positive.

Science Cafes: Engaging graduate students one drink at a time!

NASA Astrophysics Data System (ADS)

Schiebel, H.; Chen, R. F.

2016-02-01

Science Cafes are events that take place in casual settings (pubs, coffeehouses) that are typically open to a broad audience and feature engaging conversations with scientists about particular topics. Science Cafes are a grassroots movement and exist on an international scale with a common goal of engaging broad audiences in informal scientific discussions. Graduate Students for Ocean Education (GrOE), funded by COSEE OCEAN (Center for Ocean Science Education Excellence—Ocean Communities in Science Education And social Networks), has taken this model and honed in on a specific audience: graduate students. Through monthly Science Cafes with varying themes (ocean acidification to remote sensing), GrOE has engaged over two hundred graduate students throughout New England. While attendance at the Science Cafes is consistent, the presence and engagement of graduate students on the GrOE Facebook page is now growing, a trend attributed to having face-to-face contact with scientists and other graduate students.

Changes needed in U.S. science education

NASA Astrophysics Data System (ADS)

Zielinski, Sarah

2006-10-01

Improvements in U.S. science education require a coordinated curriculum from kindergarten through grade eight (K-8), with standards focused on several core ideas, according to a 21 September report from the National Research Council of the U.S. National Academies. The committee that authored the report recommended that K-8 science education offer students the opportunity to become versed in knowing, using, and interpreting scientific explanations of the natural world, and in other `strandsrsquo that comprise proficiency in science. Students also should receive a variety of learning experiences, including conducting investigations, sharing ideas with their peers, and using models. The report urges policymakers,researchers, and leaders in education to tackle gaps in science achievement that persist between white students and non-Asian minority students, and between economically advantaged and disadvantaged children. In addition, the committee found that although studies show that children can think in sophisticated ways, science education usually assumes that children are simplistic thinkers.

Gains in the Education of Mathematics and Science GEMS: Teaching Robotics to High School Students

DTIC Science & Technology

2013-01-01

find amusing but that we find of less educational value, like having the robots say comical things. Those who have more teaching time would doubtless...Gains in the Education of Mathematics and Science GEMS: Teaching Robotics to High School Students by Edward M. Measure and Edward Creegan...TR-6220 January 2013 Gains in the Education of Mathematics and Science (GEMS): Teaching Robotics to High School Students Edward M

Promoting Pre-college Science Education

NASA Astrophysics Data System (ADS)

Lee, R. L.

1999-11-01

The Fusion Education Program, with support from DOE, continues to promote pre-college science education for students and teachers using multiple approaches. An important part of our program is direct scientist-student interaction. Our ``Scientist in a Classroom'' program allows students to interact with scientists and engage in plasma science activities in the students' classroom. More than 1000 students from 11 schools have participated in this exciting program. Also, this year more than 800 students and teachers have visited the DIII--D facility and interacted with scientists to cover a broad range of technical and educational issues. Teacher-scientist interaction is imperative in professional development and each year more than 100 teachers attend workshops produced by the fusion education team. We also participate in unique learning opportunities. Members of the team, in collaboration with the San Diego County Office of Education, held a pioneering Internet-based Physics Olympiad for American and Siberian students. Our teamwork with educators helps shape material that is grade appropriate, relevant, and stimulates thinking in educators and students.

Eliciting and utilizing rural students' funds of knowledge in the service of science learning: An action research study

NASA Astrophysics Data System (ADS)

Lloyd, Ellen M.

Several researchers have pointed out the failures of current schooling to adequately prepare students in science and called for radical reform in science education to address the problem. One dominant critique of science education is that several groups of students are not well served by current school science practices and discourses. Rural students represent one of these underserved populations. Yet, there is little in the literature that speaks specifically to reforming the science education of rural students. Utilizing action research as a methodology, this study was designed to learn more about the unique knowledge and life experiences of rural students, and how these unique knowledge, skills and interests could suggest new ways to improve science education in rural schools. Informed by this ultimate goal, I created an after school science club where the participating high school students engaged in solving a local watershed problem, while explicitly bringing to bear their unique backgrounds, local knowledge and life experiences from living in a rural area of Upstate New York. Using Funds of Knowledge as the theoretical framework, this after-school club served as the context to investigate the following research questions: (1) What science-related funds of knowledge do rural high school students have? (2) How were these funds of knowledge capitalized on to support science learning in an after-school setting?

Effects of the Problem-Posing Approach on Students' Problem Solving Skills and Metacognitive Awareness in Science Education

NASA Astrophysics Data System (ADS)

Akben, Nimet

2018-05-01

The interrelationship between mathematics and science education has frequently been emphasized, and common goals and approaches have often been adopted between disciplines. Improving students' problem-solving skills in mathematics and science education has always been given special attention; however, the problem-posing approach which plays a key role in mathematics education has not been commonly utilized in science education. As a result, the purpose of this study was to better determine the effects of the problem-posing approach on students' problem-solving skills and metacognitive awareness in science education. This was a quasi-experimental based study conducted with 61 chemistry and 40 physics students; a problem-solving inventory and a metacognitive awareness inventory were administered to participants both as a pre-test and a post-test. During the 2017-2018 academic year, problem-solving activities based on the problem-posing approach were performed with the participating students during their senior year in various university chemistry and physics departments throughout the Republic of Turkey. The study results suggested that structured, semi-structured, and free problem-posing activities improve students' problem-solving skills and metacognitive awareness. These findings indicated not only the usefulness of integrating problem-posing activities into science education programs but also the need for further research into this question.

Integrating Inquiry-Based Science and Education Methods Courses in a "Science Semester" for Future Elementary Teachers

NASA Astrophysics Data System (ADS)

Madsen, J.; Fifield, S.; Allen, D.; Brickhouse, N.; Dagher, Z.; Ford, D.; Shipman, H.

2001-05-01

In this NSF-funded project we will adapt problem-based learning (PBL) and other inquiry-based approaches to create an integrated science and education methods curriculum ("science semester") for elementary teacher education majors. Our goal is to foster integrated understandings of science and pedagogy that future elementary teachers need to effectively use inquiry-based approaches in their classrooms. This project responds to calls to improve science education for all students by making preservice teachers' experiences in undergraduate science courses more consistent with reforms at the K-12 level. The involved faculty teach three science courses (biology, earth science, physical science) and an elementary science education methods course that are degree requirements for elementary teacher education majors. Presently, students take the courses in variable sequences and at widely scattered times. Too many students fail to appreciate the value of science courses to their future careers as teachers, and when they reach the methods course in the junior year they often retain little of the science content studied earlier. These episodic encounters with science make it difficult for students to learn the content, and to translate their understandings of science into effective, inquiry-based teaching strategies. To encourage integrated understandings of science concepts and pedagogy we will coordinate the science and methods courses in a junior-year science semester. Traditional subject matter boundaries will be crossed to stress shared themes that teachers must understand to teach standards-based elementary science. We will adapt exemplary approaches that support both learning science and learning how to teach science. Students will work collaboratively on multidisciplinary PBL activities that place science concepts in authentic contexts and build learning skills. "Lecture" meetings will be large group active learning sessions that help students understand difficult concepts, make connections between class activities, and launch and wrap-up PBL problems. Labs will include activities from elementary science kits as launching points for in-depth investigations that demonstrate the continuity of science concepts and pedagogies across age levels. In the methods course, students will critically explore the theory and practice of elementary science teaching, drawing on their shared experiences of inquiry learning in the science courses. Field placements in elementary classrooms will allow students to ground their studies of science and pedagogy in actual practice.

Development of online instructional resources for Earth system science education: An example of current practice from China

NASA Astrophysics Data System (ADS)

Dong, Shaochun; Xu, Shijin; Lu, Xiancai

2009-06-01

Educators around the world are striving to make science more accessible and relevant to students. Online instructional resources have become an integral component of tertiary science education and will continue to grow in influence and importance over the coming decades. A case study in the iterative improvement of the online instructional resources provided for first-year undergraduates taking " Introductory Earth System Science" at Nanjing University in China is presented in this paper. Online instructional resources are used to conduct a student-centered learning model in the domain of Earth system science, resulting in a sustainable online instructional framework for students and instructors. The purpose of our practice is to make Earth system science education more accessible and exciting to students, changing instruction from a largely textbook-based teacher-centered approach to a more interactive and student-centered approach, and promoting the integration of knowledge and development of deep understanding by students. Evaluation on learning performance and learning satisfaction is conducted to identify helpful components and perception based on students' learning activities. The feedbacks indicate that the use of online instructional resources has positive impacts on mitigating Earth system science education challenges, and has the potential to promote deep learning.

Autonomy, Competence, and Intrinsic Motivation in Science Education: A Self- Determination Theory Perspective

NASA Astrophysics Data System (ADS)

Painter, Jason

The purpose of this study was to examine a proposed motivational model of science achievement based on self-determination theory. The study relied on U.S. eighth-grade science data from the 2007 Third International Mathematics and Science Study to examine a structural model that hypothesized how perceived autonomy support, perceived competence in science, intrinsic motivation, and science achievement related to each other. Mother's education and student gender were used as controls. Findings showed that the hypothesized model provided a good fit to the data. The strongest direct effect on science achievement was students' perceived competence in science. Student intrinsic motivation was shown to have a surprisingly negative effect on science achievement. Autonomy support had positive direct effects on students' perceived competence in science and intrinsic motivation and had indirect positive effects to science achievement. Results and implications for science education are discussed.

Myths and Motives behind STEM (Science, Technology, Engineering, and Mathematics) Education and the STEM-Worker Shortage Narrartive

ERIC Educational Resources Information Center

Stevenson, Heidi J.

2014-01-01

The Business Roundtable (2013) website presents a common narrative in regard to STEM (Science, Technology, Engineering and Mathematics) education, "American students are falling behind in math and science. Fewer and fewer students are pursuing careers in science, technology, engineering and mathematics, and American students are performing at…

A Tale of Two Courses: Exploring Teacher Candidates' Translation of Science and Special Education Methods Instruction into Inclusive Science Practices

ERIC Educational Resources Information Center

Kahn, Sami; Pigman, Ryan; Ottley, Jennifer

2017-01-01

Early childhood educators teach science to all students, including students with disabilities. Strategies for accommodating students with disabilities in science, including familiarity with equitable frameworks such as Universal Design for Learning (UDL) are therefore a critical aspect of early childhood teacher candidates' pedagogical content…

An Analysis of Science Student Teachers' Epistemological Beliefs and Metacognitive Perceptions about the Nature of Science

ERIC Educational Resources Information Center

Yenice, Nilgün

2015-01-01

This study has been carried out to identify the relationship between the epistemological beliefs of student teachers and their metacognitive perceptions about the nature of science. The participants of the study totaled 336 student teachers enrolled in the elementary science education division of the department of elementary education at the…

Applying Alternative Teaching Methods to Impart a Rounded, Liberal Arts and Sciences (LAS) Education: Students' Reflections on the Role of Magazines as Instructional Tools

ERIC Educational Resources Information Center

Sithole, Alec; Kibirige, Joachim; Mupinga, Davison M.; Chiyaka, Edward T.

2016-01-01

In a constantly and rapidly changing social world, students from all disciplines ought to attain a rounded education within the tradition of a "Liberal Arts and Sciences" (LAS) context. Students outside of the natural sciences must be encouraged to appreciate the place of those sciences in their lives. Conversely, students in the natural…

Relationship between affect and achievement in science and mathematics in Malaysia and Singapore

NASA Astrophysics Data System (ADS)

Thoe Ng, Khar; Fah Lay, Yoon; Areepattamannil, Shaljan; Treagust, David F.; Chandrasegaran, A. L.

2012-11-01

Background : The Trends in International Mathematics and Science Study (TIMSS) assesses the quality of the teaching and learning of science and mathematics among Grades 4 and 8 students across participating countries. Purpose : This study explored the relationship between positive affect towards science and mathematics and achievement in science and mathematics among Malaysian and Singaporean Grade 8 students. Sample : In total, 4466 Malaysia students and 4599 Singaporean students from Grade 8 who participated in TIMSS 2007 were involved in this study. Design and method : Students' achievement scores on eight items in the survey instrument that were reported in TIMSS 2007 were used as the dependent variable in the analysis. Students' scores on four items in the TIMSS 2007 survey instrument pertaining to students' affect towards science and mathematics together with students' gender, language spoken at home and parental education were used as the independent variables. Results : Positive affect towards science and mathematics indicated statistically significant predictive effects on achievement in the two subjects for both Malaysian and Singaporean Grade 8 students. There were statistically significant predictive effects on mathematics achievement for the students' gender, language spoken at home and parental education for both Malaysian and Singaporean students, with R 2 = 0.18 and 0.21, respectively. However, only parental education showed statistically significant predictive effects on science achievement for both countries. For Singapore, language spoken at home also demonstrated statistically significant predictive effects on science achievement, whereas gender did not. For Malaysia, neither gender nor language spoken at home had statistically significant predictive effects on science achievement. Conclusions : It is important for educators to consider implementing self-concept enhancement intervention programmes by incorporating 'affect' components of academic self-concept in order to develop students' talents and promote academic excellence in science and mathematics.

Preparing students for higher education and careers in agriculture and related fields: An ethnography of an urban charter school

NASA Astrophysics Data System (ADS)

Henry, Kesha Atasha

This study explored the preparation of students for higher education and careers in agriculturally-related fields at an urban charter high school. The data were collected through interviews, observations, and field notes. The data were analyzed by qualitative methodology with phenomenology as the theoretical framework. Findings indicated that administrators thought it was important to incorporate agricultural science courses into urban school curricula. They stated that agricultural science courses gave urban students a different way of looking at science and helped to enhance the science and technology focus of the school. Further, agricultural science courses helped to break urban students' stereotypes about agriculture and helped to bring in more state funding for educational programs. However they thought that it was more challenging to teach agricultural science in urban versus rural schools and they focused more on Science, Technology, Engineering, and Mathematics (STEM) related careers. The students had mixed views about higher education and careers in agriculture. This was based on their limited knowledge and stereotypes about agricultural majors and career options. The students highlighted several key reasons why they chose to enroll in agricultural science courses. This included the benefits of dual science credits and the ability to earn an associate degree upon successful completion of their program. Students also loved science and appreciated the science intensive nature of the agricultural courses. Additionally, they thought that the agricultural science courses were better than the other optional courses. The results also showed that electronic media such as radio and TV had a negative impact on students' perceptions about higher education and careers in agriculturally-related fields. Conclusions and recommendations are presented.

Metaphoric Perception of Gifted Students about Physical Education Course and Physical Education Teachers

ERIC Educational Resources Information Center

Yilmaz, Aynur; Esenturk, Oguz Kaan; Demir, Gonul Tekkursun; Ilhan, Ekrem Levent

2017-01-01

It is to determine the perception of the gifted students who participate to "Science and Art Center" about "Physical Education Course" and "Physical Education Teachers" via metaphors. The working group of the research consists of 48 students who participate Science and Art Center in 2014-2015 school years. Among the…

Altering conditions for student participation and motive development in school science: learning from Helena's mistake

NASA Astrophysics Data System (ADS)

Andrée, Maria

2012-06-01

Previous research on science education has described various factors influencing students' participation and produced categorizations of students based on e.g. cultural background. In this article it is argued, theoretically and empirically, that an understanding of students' participation in science education needs to begin with an analysis of what activity students are engaged in. The aim is to explore how altering conditions of classroom work may open up opportunities for students mainly participating in an activity of education or schooling to engage in an activity of science learning. Activity is conceptualized in a Cultural-Historical Activity Theory perspective as object-oriented and transformative. Drawing on an ethnographic study in a Swedish compulsory school, a critical incident of the participation in science education of a 7th grade girl called Helena is analyzed. The results show that altered conditions of classroom practice may produce new possibilities for student participation, and point to the impossibility of determining students as `different kinds of students' based on a priori categories e.g. sex, ethnicity, socio-economic background.

Building Learning Communities for Research Collaboration and Cross-Cultural Enrichment in Science Education

NASA Astrophysics Data System (ADS)

Sparrow, E. B.

2003-12-01

The GLOBE program has provided opportunities for environmental science research and education collaborations among scientists, teachers and K-12 students, and for cross-cultural enrichment nationally and abroad. In Alaska, GLOBE has also provided funding leverage in some cases, and a base for several other science education programs that share a common goal of increasing student interest, understanding, process skills and achievement in science, through involvement in ongoing research investigations. These programs that use GLOBE methodologies (standardized scientific measurements and learning activities developed by scientists and educators) are: Global Change Education Using Western Science and Native Knowledge also known as "Observing Locally, Connecting Globally" (OLCG); Alaska Earth System Science Education Alliance: Improving Understanding of Climate Variability and Its Relevance to Rural Alaska; Schoolyard Long Term Ecological Research; Alaska Rural Research Partnership; Alaska Partnership for Teacher Enhancement; Alaska Lake Ice and Snow Observatory Network; Alaska Boreal Forest Council Education Outreach; Calypso Farm and Ecology Center; Environmental Education Outreach; and also GLOBE Arctic POPs (persistent organic pollutants) a program that involves countries in the circumpolar North. The University of Alaska GLOBE Partnership has collaborated with the BLM Campbell Creek Science Center Globe Partnership in facilitating GLOBE Training Workshops and providing teacher support. GLOBE's extensive website including data entry, archive, analysis and visualization capabilities; GLOBE Teacher Guide, videos and other materials provided; excellent GLOBE science research and education staff, training support office, GLOBE help desk, alignment of GLOBE curriculum with national science education standards and GLOBE certification of teachers trained on even just one GLOBE investigation, have made it easier to implement GLOBE in the classroom. Using GLOBE, whole classes of students have engaged in and contributed data to science investigations. In Alaska, classes and individual students have conducted their own inquiry studies and have successfully presented their investigations and competed at science fairs and statewide high school science symposium and international conferences. Two students presented their research investigations at the GLOBE Learning Expedition in Croatia and four students presented their study at the GLOBE Arctic POPs Conference in Sweden. These students increased not only their understanding and knowledge of science but also in appreciation of people in other countries and their cultures. Friendships have also bloomed. The learning community in Alaska has expanded to include family and community members including Native elders (using OLCG), teachers, scientists and students from other countries. The following challenges remain: 1) getting funds to be able to provide GLOBE equipment and continuous support to GLOBE teachers and students throughout the year, 2) reaching teachers and students in remote areas, 3) rapid teacher turn-over rate in rural areas, 4) using inquiry-based pedagogies during GLOBE professional development workshops including the opportunity for teacher participants to conduct their own inquiries during the workshop, 5) time, school curriculum and national education requirement constraints, 6) involving school administrators, and more local scientists and community members, and 7) providing culturally relevant and responsive science education programs and life-long learning communities.

An Overview of contributions of NASA Space Shuttle to Space Science and Engineering education

NASA Astrophysics Data System (ADS)

Lulla, Kamlesh

2012-07-01

This paper provides an indepth overview of the enormous contrbutions made by the NASA Space Shuttle Program to Space science and engineering education over the past thirty years. The author has served as one of the major contributors and editors of NASA book "Wings In Orbit: Scientific and Engineering Legacies of the Space Shuttle program" (NASA SP-2010-3409). Every Space Shuttle mission was an education mission: student involvement programs such as Get Away Specials housed in Shuttle payload allowed students to propose research and thus enrich their university education experience. School students were able to operate "EarthKAM" to learn the intricacies of orbital mechanics, earth viewing opportunities and were able to master the science and art of proposal writing and scientific collaboration. The purpose of this presentation is to introduce the global student and teaching community in space sciences and engineering to the plethora of educational resources available to them for engaging a wide variety of students (from early school to the undergraduate and graduate level and to inspire them towards careers in Space sciences and technologies. The volume "Wings In Orbit" book is one example of these ready to use in classroom materials. This paper will highlight the educational payloads, experiments and on-orbit classroom activities conducted for space science and engineering students, teachers and non-traditional educators. The presentation will include discussions on the science content and its educational relevance in all major disiciplines in which the research was conducted on-board the Space Shuttle.

Career education attitudes and practices of K-12 science educators

NASA Astrophysics Data System (ADS)

Smith, Walter S.

A random sample of 400 K-12 science educators who were members of the National Science Teachers Association were surveyed regarding their attitude toward and practice of career education in their science teaching. These science teachers rejected a narrowly vocational view, favoring instead a conception of career education which included self-perception, values analysis, and vocational skills objectives. The science educators affirmed the importance of career education for a student's education, asserted career education ought to be taught in their existing science courses, and expressed a willingness to do so. Fewer than one-third of the science teachers, however, reported incorporating career education at least on a weekly basis in their science lessons. The major impediment to including more career education in science teaching was seen to be their lack of knowledge of methods and materials relevant to science career education, rather than objections from students, parents, or administrators; their unwillingness; or their evaluation of career education as unimportant. Thus, in order to improve this aspect of science teaching, science teachers need more concrete information about science career education applications.

Development of the Exam of GeoloGy Standards, EGGS, to Measure Students' Conceptual Understanding of Geology Concepts

NASA Astrophysics Data System (ADS)

Guffey, S. K.; Slater, T. F.; Slater, S. J.

2017-12-01

Discipline-based geoscience education researchers have considerable need for criterion-referenced, easy-to-administer and easy-to-score, conceptual diagnostic surveys for undergraduates taking introductory science survey courses in order for faculty to better be able to monitor the learning impacts of various interactive teaching approaches. To support ongoing discipline-based science education research to improve teaching and learning across the geosciences, this study establishes the reliability and validity of a 28-item, multiple-choice, pre- and post- Exam of GeoloGy Standards, hereafter simply called EGGS. The content knowledge EGGS addresses is based on 11 consensus concepts derived from a systematic, thematic analysis of the overlapping ideas presented in national science education reform documents including the Next Generation Science Standards, the AAAS Benchmarks for Science Literacy, the Earth Science Literacy Principles, and the NRC National Science Education Standards. Using community agreed upon best-practices for creating, field-testing, and iteratively revising modern multiple-choice test items using classical item analysis techniques, EGGS emphasizes natural student language over technical scientific vocabulary, leverages illustrations over students' reading ability, specifically targets students' misconceptions identified in the scholarly literature, and covers the range of topics most geology educators expect general education students to know at the end of their formal science learning experiences. The current version of EGGS is judged to be valid and reliable with college-level, introductory science survey students based on both standard quantitative and qualitative measures, including extensive clinical interviews with targeted students and systematic expert review.

The implementation of a discovery-oriented science education program in a rural elementary school

NASA Astrophysics Data System (ADS)

Liddell, Martha Sue

2000-10-01

This study focused on the implementation of a discovery-oriented science education program at a rural elementary school in Mississippi. The instructional leadership role of the principal was examined in the study through identification and documentation of processes undertaken by the principal to implement a discovery-oriented science education program school. The goal of the study was to develop a suggested approach for implementing a discovery-oriented science education program for principals who wish to become instructional leaders in the area of science education at their schools. Mixed methods were used to collect, analyze, and interpret data. Subjects for the study consisted of teachers, students, and parents. Data were collected through field observation; observations of science education being taught by classroom teachers; examination of the principal's log describing actions taken to implement a discovery-oriented science education program; conducting semi-structured interviews with teachers as the key informants; and examining attitudinal data collected by the Carolina Biological Supply Company for the purpose of measuring attitudes of teachers, students, and parents toward the proposed science education program and the Science and Technology for Children (STC) program piloted at the school. To develop a suggested approach for implementing a discovery-oriented science education program, data collected from field notes, classroom observations, the principal's log of activities, and key informant interviews were analyzed and group into themes pertinent to the study. In addition to descriptive measures, chi-square goodness-of-fit tests were used to determine whether the frequency distribution showed a specific pattern within the attitudinal data collected by the Carolina Biological Supply Company. The pertinent question asked in analyzing data was: Are the differences significant or are they due to chance? An alpha level of .01 was selected to determine statistical significance. Teachers, students, and parents responding to the attitudinal survey concerning science education at the school were asked to mark each of four statements in one of three ways: "Agree," "Unsure," or "Disagree." Teachers, students, and parents were also given the opportunity to make comments. The results of the 1998 attitudinal surveys administered to teachers, students, and parents at the school indicated that teachers at the school generally held negative perceptions about the science education program in place at the school. Students were also generally negative in their opinions about science education at the school and parents were somewhat neutral in their opinions. After the Science and Technology for Children program was implemented at the school site, opinions concerning science education at the school changed. The 1999 attitudinal surveys indicated that teachers, students, and parents at the school expressed more positive than negative responses concerning science education.

An opportunity for success: Understanding motivation and learning from urban youth participation in an after school science program

NASA Astrophysics Data System (ADS)

Catlin, Janell Nicole

This dissertation is an ethnographic study that documents through student voice the untold stories of urban student motivation to learn and engage in science through the contexts of an after school science program and the students' in-school science classrooms. The purpose of this study is to add to the literature in science education on motivation of urban youth to learn and engage in science through thick and rich descriptions of student voice. This study addresses issues in educational inequity by researching students who are historically marginalized. The focus of the study is four middle school students. The methodology employed was critical ethnography and case study. The data sources included participant observations and field notes, interviews, student artifacts, Snack and Chat, autophotography, and the researcher's reflective journal. The findings of this study state that motivating factors for urban middle school students' learning and engaging in science include a flexible and engaging curriculum, that students are empowered and motivated to learn when teachers are respectful, that urban middle school science students hold positive images about scientists, themselves and knowing science, and that urban teachers of the dominant culture believe that their urban middle school science students are motivated. In using Sociotransformative Constructivism (STC) and Critical Race Theory (CRT) the researcher informs the issues of inequity and racism that emerge from historical perspectives and students' stories about their experiences inside and outside of school. The implications state that allowing for a flexible curriculum that motivates students to make choices about what and how they want to learn and engage in science are necessary science teaching goals for urban middle school students, it is necessary that teachers are conscious of their interactions with their students, diversifying the science field through educating and empowering all students through learning science is key, and to get teachers to the point of an anti-deficit view of urban education more positive stories told by and research done with White urban science teachers must be documented.

Collaborative Science Work in the Elementary Classroom

NASA Astrophysics Data System (ADS)

Kersey, Denise A.

Not all students with disabilities receive special education accommodations in science class. Without special education support, students with disabilities are unable to comprehend and apply science concepts. Implementing a co-teaching model could be a remedy for this lack of supports. Framed by constructivist theory, this study sought to determine if there was a difference in science assessment scores between students in a co-taught science class and those in a regular education science class. Following a pretest-posttest control group design, this study examined the relation between two teaching models and achievement in science. Using a convenience sample of 84 students drawn from a population of 144 fourth grade special education students in a public school district located in the Southeastern United States, analysis of variance was used to compare the mean growth of the two groups. The data revealed no statistically significant difference in mean gain scores between the two groups. Additional studies using a larger sample and longer trial are needed. Implications for social change include understanding instructional strategies that allow educators to differentiate for diverse learners in mainstreamed classrooms as well as removing barriers for underrepresented groups, thereby allowing equal access to science related professions.

Science teaching in science education

NASA Astrophysics Data System (ADS)

Callahan, Brendan E.; Dopico, Eduardo

2016-06-01

Reading the interesting article Discerning selective traditions in science education by Per Sund , which is published in this issue of CSSE, allows us to open the discussion on procedures for teaching science today. Clearly there is overlap between the teaching of science and other areas of knowledge. However, we must constantly develop new methods to teach and differentiate between science education and teaching science in response to the changing needs of our students, and we must analyze what role teachers and teacher educators play in both. We must continually examine the methods and concepts involved in developing pedagogical content knowledge in science teachers. Otherwise, the possibility that these routines, based on subjective traditions, prevent emerging processes of educational innovation. Modern science is an enormous field of knowledge in its own right, which is made more expansive when examined within the context of its place in society. We propose the need to design educative interactions around situations that involve science and society. Science education must provide students with all four dimensions of the cognitive process: factual knowledge, conceptual knowledge, procedural knowledge, and metacognitive knowledge. We can observe in classrooms at all levels of education that students understand the concepts better when they have the opportunity to apply the scientific knowledge in a personally relevant way. When students find value in practical exercises and they are provided opportunities to reinterpret their experiences, greater learning gains are achieved. In this sense, a key aspect of educational innovation is the change in teaching methodology. We need new tools to respond to new problems. A shift in teacher education is needed to realize the rewards of situating science questions in a societal context and opening classroom doors to active methodologies in science education to promote meaningful learning through meaningful teaching.

An Examination of the Processes of Student Science Identity Negotiation within an Informal Learning Community

NASA Astrophysics Data System (ADS)

Mark, Sheron L.

Scientific proficiency is important, not only for a solid, interdisciplinary educational foundation, but also for entry into and mobility within today's increasingly technological and globalized workplace, as well as for informed, democratic participation in society (National Academies Press, 2007b). Within the United States, low-income, ethnic minority students are disproportionately underperforming and underrepresented in science, as well as mathematics, engineering and other technology fields (Business-Higher Education Forum, 2011; National Assessment of Educational Progress, 2009). This is due, in part, to a lack of educational structures and strategies that can support low-income, ethnic minority students to become competent in science in equitable and empowering ways. In order to investigate such structures and strategies that may be beneficial for these students, a longitudinal, qualitative study was conducted. The 15 month study was an investigation of science identity negotiation informed by the theoretical perspectives of Brown's (2004) discursive science identities and Tan and Barton's (2008) identities-in-practice amongst ten high school students in an informal science program and employed an amalgam of research designs, including ethnography (Geertz, 1973), case study (Stake, 2000) and grounded theory (Glaser & Strauss, 1967). Findings indicated that the students made use of two strategies, discursive identity development and language use in science, in order to negotiate student science identities in satisfying ways within the limits of the TESJ practice. Additionally, 3 factors were identified as being supportive of successful student science identity negotiation in the informal practice, as well. These were (i) peer dynamics, (ii) significant social interactions, and (iii) student ownership in science. The students were also uncovered to be particularly open-minded to the field of STEM. Finally, with respect to STEM career development, specific behaviors were indicative of students' serious consideration of STEM careers and two major patterns in STEM career interests were uncovered. The findings are discussed in relation to existing research in science education, as are implications for future research and practice.

The Accidental Toxicologist: A Career in the Science of ...

EPA Pesticide Factsheets

This PowerPoint presentation is part of a Health Science Career fair for Wake County, NC high school students. The purpose is to familiarize students with careers in the health sciences and the education necessary to be eligible for those careers. This presentation is part of a Health Science Career fair for Wake County, NC high school students. The purpose is to familiarize students with careers in the health sciences and the education necessary to be eligible for those careers.

A Week in the Wilderness of the Great Smoky Mountains Institute at Tremont: An Outdoor Science Education Course for Graduate and Undergraduate Students

NASA Astrophysics Data System (ADS)

Radencic, S.; Walker, R. M.; Anthony, K. V.

2014-12-01

Graduate and undergraduate students with an interest in science education complete an intensive three-week "Maymester" course at Mississippi State University that includes one week of field experience teaching science in outdoor environments. The focus of the course includes the history and rationales for interdisciplinary outdoor education and informal learning environments while promoting successful pedagogical practices to enhance science instruction. Students gain valuable outdoor education field experience through a week of full emersion at a residential environmental learning center at the Great Smoky Mountains Institute at Tremont, TN (www.gsmit.org) that challenges perceptions of what many believe are "good teaching" practices. Tremont offers multiple overnight educational options for K-12 schools, teacher professional development programs, master naturalists trainings, and citizen science opportunities to the public. Being fully immersed in the outdoors teaching and learning about Earth Science interdisciplinary topics creates a paradigm shift in what is considered to be effective teaching by the graduate and undergraduate participants. Prior to the week at Tremont, students select a Tremont created outdoor educational activity to teach their fellow the graduate and undergraduate students while at Tremont. All activities promote inquiry and hands-on exploration utilizing authentic science process skills in outdoor field research settings that can also be adapted for local school environments. At Tremont the students reside in platform tents located at the center to allow complete immersion in the culture of informal learning unique to outdoor education. In addition to gaining personal experiences leading outdoor science activities, the college students get to actively observe experts in the field of outdoor ecological education model exemplary pedagogical practices of guided inquiry and effective questioning strategies. The impact of the full emersion field experience gained by class participants will be one that they can implement into a variety of science education settings to enrich understanding of the Geosciences to diverse audiences.

Global Climates--Past, Present, and Future. Activities for Integrated Science Education.

ERIC Educational Resources Information Center

Henderson, Sandra, Ed.; And Others

Designed for integration into existing science curriculum for grades 8-10, this curriculum uses a current environmental issue, climate change, as a vehicle for teaching science education. Instructional goals include: (1) familiarize students with scientific methods; (2) help students understand the role of uncertainty; (3) encourage students to…

Student and Faculty Outcomes of Undergraduate Science Research Projects by Geographically Dispersed Students

ERIC Educational Resources Information Center

Shaw, Lawton; Kennepohl, Dietmar

2013-01-01

Senior undergraduate research projects are important components of most undergraduate science degrees. The delivery of such projects in a distance education format is challenging. Athabasca University (AU) science project courses allow distance education students to complete research project courses by working with research supervisors in their…

Undergraduate Research in Physics as an Educational Tool

NASA Astrophysics Data System (ADS)

Hakim, Toufic M.; Garg, Shila

2001-03-01

The National Science Foundation's 1996 report "Shaping the Future: New Expectations for Undergraduate Education in Science, Mathematics, Engineering and Technology" urged that in order to improve SME&T education, decisive action must be taken so that "all students have access to excellent undergraduate education in science .... and all students learn these subjects by direct experience with the methods and processes of inquiry." Research-related educational activities that integrate education and research have been shown to be valuable in improving the quality of education and enhancing the number of majors in physics departments. Student researchers develop a motivation to continue in science and engineering through an appreciation of how science is done and the excitement of doing frontier research. We will address some of the challenges of integrating research into the physics undergraduate curriculum effectively. The departmental and institutional policies and infrastructure required to help prepare students for this endeavor will be discussed as well as sources of support and the establishment of appropriate evaluation procedures.

Inquiring Astronomy: Incorporating Student-Centered Pedagogical Techniques in an Introductory College Science Course

ERIC Educational Resources Information Center

French, Debbie A.; Burrows, Andrea C.

2017-01-01

Increases in student-centered pedagogy have been more prevalent in K-12 education than in collegiate undergraduate science education. The purpose of this study was to determine the effects of using student-centered pedagogy advocated in K-12 education on introductory astronomy students' content knowledge, interest, and recall of content taught in…

Navigating Rough Waters: Hawaiian Science Teachers Discuss Identity

ERIC Educational Resources Information Center

Allaire, Franklin S.

2013-01-01

Research with Native Hawaiian science teachers is contributing to a better understanding of issues relating to equity in science education, and toward improving science curriculum to support Native Hawaiian students as well as support systems for Native Hawaiian students interested in pursuing higher education and science-based careers.…

The Role of Philosophy of Science in Science Teacher Education.

ERIC Educational Resources Information Center

Bentley, Michael L.; Garrison, James W.

1991-01-01

Discusses teacher knowledge of nature of science. Asserts this is aspect of science content knowledge frequently neglected in teacher education. Differentiates between positivism and postpositivism. Describes textbook's role in fostering student misconceptions of nature of science. Suggests students be given chance to carry out their own…

QuikSCience: Effective Linkage of Competitive, Cooperative, and Service Learning in Science Education

ERIC Educational Resources Information Center

Lemus, Judith D.; Bishop, Kristina; Walters, Howard

2010-01-01

The QuikSCience Challenge science education program combines a cooperative team project emphasizing community service with an academic competition for middle and high school students. The program aims to develop leadership abilities, motivate interest in ocean sciences, engage students in community service and environmental stewardship, and…

SCIENCE FOR THE ACADEMICALLY TALENTED STUDENT IN THE SECONDARY SCHOOL, REPORT OF A CONFERENCE SPONSORED JOINTLY BY THE NATIONAL EDUCATION ASSOCIATION PROJECT ON THE ACADEMICALLY TALENTED STUDENT AND THE NATIONAL SCIENCE TEACHERS ASSOCIATION.

ERIC Educational Resources Information Center

DONALDSON, ROBERT R.

RESULTS OF A JOINT NATIONAL EDUCATION ASSOCIATION-NATIONAL SCIENCE TEACHERS ASSOCIATION CONFERENCE ON SCIENCE FOR ACADEMICALLY TALENTED STUDENTS ARE REPORTED. MAJOR TOPICS DISCUSSED ARE (1) THE IDENTIFICATION OF THE TALENTED STUDENT, (2) GUIDELINES FOR THE SELECTION OF COURSE CONTENT, (3) TEACHING METHODS, AND (4) DESIRABLE QUALITIES AND…

Best practices for measuring students' attitudes toward learning science.

PubMed

Lovelace, Matthew; Brickman, Peggy

2013-01-01

Science educators often characterize the degree to which tests measure different facets of college students' learning, such as knowing, applying, and problem solving. A casual survey of scholarship of teaching and learning research studies reveals that many educators also measure how students' attitudes influence their learning. Students' science attitudes refer to their positive or negative feelings and predispositions to learn science. Science educators use attitude measures, in conjunction with learning measures, to inform the conclusions they draw about the efficacy of their instructional interventions. The measurement of students' attitudes poses similar but distinct challenges as compared with measurement of learning, such as determining validity and reliability of instruments and selecting appropriate methods for conducting statistical analyses. In this review, we will describe techniques commonly used to quantify students' attitudes toward science. We will also discuss best practices for the analysis and interpretation of attitude data.

An implementation study: An analysis of elementary students' and teachers' attitudes toward science in process-approach vs. traditional science classes

NASA Astrophysics Data System (ADS)

Kyle, William C., Jr.; Bonnstetter, Ronald J.; Gadsden, Thomas, Jr.

In 1983, the Richardson Independent School District conducted an internal audit to assess the status of science education. The audit was in anticipation of Texas Administrative Code Chapter 75 which requires an inquiry-oriented, process-approach to the teaching of science. In response to the data, and to national reports advocating a broadening of the science education curriculum to address the needs of all students, the district established a committee to implement and evaluate their new K-6 SCIENCE THROUGH DISCOVERY curriculum. The Science Curriculum Improvement Study (SCIIS) was adopted as the focal component of the overall curriculum with subsequent, planned innovations to occur in accordance with the Concerns-Based Adoption Model.The purpose of this study was to assess the attitudes toward science of students who had completed one year of SCIIS compared to students in non-SCIIS classes. In addition, the attitudes of teachers who received inservice education and who had instructed SCIIS were compared to non-SCIIS teachers. While SCIIS and non-SCIIS teachers possess similar perceptions of science, drastic attitudinal differences were observed between SCIIS and non-SCIIS students. The results indicate that the nature of the curriculum, in conjunction with the necessary implementation support including inservice education, greatly enhances students perceptions of science.

The Abstract Thinking Levels of the Science-Education Students in Gaza Universities

ERIC Educational Resources Information Center

Darwish, Ata H.

2014-01-01

The purpose of this study was to determine the abstract thinking levels of the science students attending the first and fourth year at two Palestinian Universities (Al-Aqsa and Al-Azhar). The sample consisted of 133 students from Science Education Departments (SE). The tool, used to measure abstract thinking, was one of the Science Reasoning Tasks…

Academic performance: A case study of mathematics and science educators from rural Washington high schools

NASA Astrophysics Data System (ADS)

Hancock, Tira K.

A qualitative descriptive case study explored courses of action for educators and leaders of math and science educators to implement to help students achieve state assessment standard and postsecondary success. The problem focused on two demographically similar rural high schools in Southwest Washington that demonstrated inadequate rates of student achievement in mathematics and science. The research question investigated courses of action that may assist educators and leaders of secondary math and science educators to help students achieve WASL standards and postsecondary success in compliance with the No Child Left Behind (NCLB) Act of 2001. Senge's learning organization theory (1990, 2006) and Fullan's (2001) contributions to leading and learning in times of change provided the theoretical framework for the study. Twenty study participant responses analyzed with qualitative analysis software QSR NVivo 7 revealed six themes. Triangulation of responses with secondary data from WASL assessment scores and case study school assessment data identified 14 courses of action and three recommendations for educators and leaders of math and science educators to help students meet state standards and postsecondary success. Critical factors identified in the study as needed to assist educators to help students succeed included professional development, collaboration, teaching practices, funding, student accountability, and parental involvement.

The Elwha Science Education Project (ESEP): Engaging an Entire Community in Geoscience Education

NASA Astrophysics Data System (ADS)

Young, R. S.; Kinner, F.

2008-12-01

Native Americans are poorly represented in all science, technology and engineering fields. This under- representation results from numerous cultural, economic, and historical factors. The Elwha Science Education Project (ESEP), initiated in 2007, strives to construct a culturally-integrated, geoscience education program for Native American young people through engagement of the entire tribal community. The ESEP has developed a unique approach to informal geoscience education, using environmental restoration as a centerpiece. Environmental restoration is an increasingly important goal for tribes. By integrating geoscience activities with community tradition and history, project stakeholders hope to show students the relevance of science to their day-to-day lives. The ESEP's strength lies in its participatory structure and unique network of partners, which include Olympic National Park; the non-profit, educational center Olympic Park Institute (OPI); a geologist providing oversight and technical expertise; and the Lower Elwha Tribe. Lower Elwha tribal elders and educators share in all phases of the project, from planning and implementation to recruitment of students and discipline. The project works collaboratively with tribal scientists and cultural educators, along with science educators to develop curriculum and best practices for this group of students. Use of hands-on, place-based outdoor activities engage students and connect them with the science outside their back doors. Preliminary results from this summer's middle school program indicate that most (75% or more) students were highly engaged approximately 90% of the time during science instruction. Recruitment of students has been particularly successful, due to a high degree of community involvement. Preliminary evaluations of the ESEP's outcomes indicate success in improving the outlook of the tribe's youth towards the geosciences and science, in general. Future evaluation will be likewise participatory, incorporating student, tribal educator, and OPI views while considering sound geological content to formatively contribute to program success.

Learning the pedagogical implications of student diversity: The lived experience of preservice teachers learning to teach secondary science in diverse classrooms

NASA Astrophysics Data System (ADS)

Larkin, Doug

This study explores the nature of the changes in thinking that occur in prospective teachers during teacher education programs, particularly as these changes pertain to the pedagogical implications of student diversity within the teaching of high school science. The specific research question examined here is: How do preservice secondary science teachers' conceptions about what it means to teach science in diverse classrooms change during a teacher education program, and in what ways are these changes influenced by their science methods courses and student teaching experiences? The theory of conceptual change serves as the framework for understanding preservice teacher learning in this study. In this research, I describe the experiences of six prospective secondary science teachers from four different teacher education programs located in the Midwestern United States using a multiple case study approach. Qualitative data was collected from students through interviews, questionnaires, teaching portfolios, written coursework, lesson planning materials, and naturalistic observations of student teaching. The questionnaire and interview protocols were based on those developed for the Teacher Education and Learning to Teach study (NCRTE, 1991) and adapted for specific science content areas. Findings of this study include the fact that participants came to view the salience of diversity in science teaching primarily in terms of students' interest, motivation, and engagement. Also, it appeared prospective teachers needed to first recognize the role that student thinking plays in learning before being able to understand the pedagogical implications of student diversity became possible. Finally, while all of the participants increasingly valued student ideas, they did so for a wide variety of reasons, not all of which related to student learning. The implications section of this study highlights opportunities for drawing on science education research to inform multicultural education theory, and suggests reconceptualizing models of teacher knowledge and cognitive conflict models of teacher learning. It also draws attention to the emerging importance of attending to probabilistic thinking in teacher education as a necessary skill for understanding student diversity.

Comparing Apples and Oranges: Using the National Science Education Standards as a Tool When Assessing Scientific Understandings.

ERIC Educational Resources Information Center

Talsma, Valerie L.; Krajcik, Joseph S.

The National Science Education Standards (NRC 1996) present a vision where students are active learners who use inquiry and who create products to represent their emergent understandings. However, educators may find it challenging both to assess student achievement and to communicate students achievement effectively to educational stakeholders.…

Soil Science Education for Primary and Secondary Students

NASA Astrophysics Data System (ADS)

Sparrow, Elena; Yoshikawa, Kenji; Kopplin, Martha

2013-04-01

Soils is one of the science investigation areas in the Global learning and Observations to Benefit the Environment (GLOBE), an international science and education program (112 countries) that teaches primary and secondary students to learn science by doing science. For each area of investigation GLOBE provides background information, measurement protocols and learning activities compiled as a chapter in the GLOBE Teacher's Guide. Also provided are data sheets and field guides to assist in the accurate collection of data as well as suggestions of scientific instruments and calibration methods. Teachers learn GLOBE scientific measurement protocols at professional development workshops led by scientists and educators, who then engage their students in soil studies that also contribute to ongoing science investigations. Students enter their data on the GLOBE website and can access their data as well as other data contributed by students from other parts of the world. Soil characterization measurements carried out in the field include site description, horizon depths, soil structure, soil color, soil consistence, soil texture, roots, rocks and carbonates. Other field measurements are soil temperature and soil moisture monitoring while the following measurements are carried out in the classroom or laboratory: gravimetric soil moisture, bulk density, particle density, particle size distribution, pH and soil fertility (nitrogen, phosphorus and potassium). Learning activities provide support for preparing students to do the measurements and for better understanding of science concepts. Many countries in GLOBE have adopted standards for education including science education with commonalities among them. For the Teacher's Guide, the National Science Education Standards published by the US National Academy of Sciences, selected additional content standards that GLOBE scientists and educators feel are appropriate and the National Geography Standards prepared by the (US) National Education Standards Project, are being used. Educational objectives for students include gaining scientific inquiry abilities in addition to understanding scientific concepts. The Soils chapter also includes some suggestions for managing students in the field and classroom. A new protocol has also been developed by the Seasons and Biomes project, one of the GLOBE earth system science projects. Active Layer monitoring uses a Frost Tube that measures when and how deeply soil freezes and is currently being used in more than 200 sites in Alaska. Teachers have successfully implemented soil studies in their curriculum and have used it to teach about the science process.

Educating Young Educators: A Pedagogical Internship for Undergraduate Teaching Assistants

PubMed Central

Romm, Iyah; Gordon-Messer, Susannah

2010-01-01

Although undergraduates have long held a role as teaching assistants for introductory science courses at liberal arts colleges and universities, educational institutions often do not provide these students with opportunities to explore science teaching and pedagogy. At Brandeis University, we designed an internship course to help increase the motivation, understanding, and knowledge of teaching pedagogy for undergraduate teaching assistants that is offered concurrently with their teaching responsibilities. Weekly sessions with faculty mentors are guided by readings in current science education literature, and throughout the semester students are asked to develop new course material based on the pedagogical frameworks discussed. To evaluate the effectiveness of this course, we surveyed students at the close of the semester. We found an overall increase in student confidence levels with regard to teaching and better awareness of the difficulties faced in science education. All students who participated in the course expressed interest in participating in future educational internships. We believe that the Educating Young Educators internship has the potential to be a catalyst for personal and professional growth from a novice into an informed young educator. PMID:20516353

Bridging the Gap? A Comparative, Retrospective Analysis of Science Literacy and Interest in Science for Indigenous and Non-Indigenous Australian Students

NASA Astrophysics Data System (ADS)

McConney, Andrew; Oliver, Mary; Woods-McConney, Amanda; Schibeci, Renato

2011-09-01

Previous research has shown that indigenous students in Australia do not enjoy equal educational outcomes with other Australians. This secondary analysis of PISA 2006 confirmed that this continues to be the case in science literacy for secondary students. However, the analysis also revealed that indigenous Australian students held interest in science equal to that of their non-indigenous peers, and that observed variations in science literacy performance were most strongly explained by variations in reading literacy. These findings hold important implications for teachers, teacher educators, policy-makers, and researchers. Firstly, acknowledging and publicly valuing indigenous Australian science knowledge through rethinking school science curriculum seems an important approach to engaging indigenous students and improving their literacy in science. Secondly, appropriate professional learning for practising teachers and the incorporation of indigenous knowing in science methods training in teacher preparation seems warranted. Additionally, we offer a number of questions for further reflection and research that would benefit our understanding of ways forward in closing the science literacy gap for indigenous students. Whilst this research remains firmly situated within the Australian educational context, we at the same time believe that the findings and implications offered here hold value for science education practitioners and researchers in other countries with similar populations striving to achieve science literacy for all.

Dreaming of science: Undocumented Latin[a]s' testimonios across the borderlands of high school science

NASA Astrophysics Data System (ADS)

Aguilar-Valdez, Jean Rockford

This qualitative study uncovers the voices of five Latin students who are high-"achieving" and undocumented and have strong aspirations in science, in a Southern, Title I high school. Through critical race methodology and these students' testimonios/counter-stories, these students' struggles and successes reveal their crossing of cultural and political borderlands and negotiating structures of schooling and science. The students dream of someday pursuing a trajectory in the field of science despite racial, ethnic, and political barriers due to their undocumented status. I use three key theoretical approaches--Borderlands/Anzalduan theory (Anzaldua, 2007), Loving Playfulness/World Traveling (Lugones, 2003), and Latino Critical Race Theory (in which many Latin/Chican studies contribute)--to put a human face on the complex political and educational situations which the students in this study traverse. Data were collected during a full school year with follow-up contact into the present, with over 133 hours immersed in the field, involving 22 individual student interviews, six student focus group interviews, 14 teacher interviews, field notes from over 79 contact hours with participants in formal and informal science education settings, and document review. This study reveals high-"achieving" students flourishing in formal school science and informal science settings, starting a STEM (Science, Technology, Engineering, and Math) club and the first community garden in a Title I high school in their state, to benefit their immigrant-rich community. Each student professes agentic desire to follow a science trajectory but testifies to their struggle with racism, nativism, and state policies of restricted college access. Students persevere in spite of the additional obstacles they face, to "prove" their "worth" and rise above deficit narratives in the public discourse regarding students of their ethnicity and undocumented status, and hold onto hope for legislation such as Comprehensive Immigration Reform (CIR) or the DREAM (Development, Relief, and Education for Alien Minors) Act. These students' lived realities, identifying as undocumented and DREAM Act eligible, also known as "DREAMers," show that more work must be done, beyond the Deferred Action for Childhood Arrivals (DACA) permits some have received, before these students' dreams can be realized. The students' testimonios call for a space in the U.S. where their talents and dreams in science are welcome and can thrive. These students speak to the injustice inherent in shutting out talented youth with potential contributions to make to science due to an immigrant status that was never their choice. Given the dearth of highly skilled and committed contributors to the field of science in the U.S., especially scarce in Latin representation, these students' prospects are vital in an increasingly globalized scientific world. This study makes this case as a deliberate appeal to interest convergence, while also attending to issues of social justice and problematizing the culture of school power that these students must navigate and assimilate into to "prove" themselves. This study adds to the science education research by providing insights into the lives of students who are Latin and undocumented, a considerable population in many science classes yet rarely discussed in science education literature, and elucidating how they negotiate science and science education framed by the larger structures they must face. Implications of this study suggest new ways of understanding this population in non-deficit ways that advocate changing the public dialogue and taking educational and political steps towards social change in solidarity with this group of students.

Improving epistemological beliefs and moral judgment through an STS-based science ethics education program.

PubMed

Han, Hyemin; Jeong, Changwoo

2014-03-01

This study develops a Science-Technology-Society (STS)-based science ethics education program for high school students majoring in or planning to major in science and engineering. Our education program includes the fields of philosophy, history, sociology and ethics of science and technology, and other STS-related theories. We expected our STS-based science ethics education program to promote students' epistemological beliefs and moral judgment development. These psychological constructs are needed to properly solve complicated moral and social dilemmas in the fields of science and engineering. We applied this program to a group of Korean high school science students gifted in science and engineering. To measure the effects of this program, we used an essay-based qualitative measurement. The results indicate that there was significant development in both epistemological beliefs and moral judgment. In closing, we briefly discuss the need to develop epistemological beliefs and moral judgment using an STS-based science ethics education program.

Innovations in Ocean Sciences Education at the University of Washington

NASA Astrophysics Data System (ADS)

Robigou, V.

2003-12-01

A new wave of education collaborations began when the national science education reform documents (AAAS Project 2061 and National Science Education Standards) recommended that scientific researchers become engaged stakeholders in science education. Collaborations between research institutions, universities, nonprofits, corporations, parent groups, and school districts can provide scientists original avenues to contribute to education for all. The University of Washington strongly responded to the national call by promoting partnerships between the university research community, the K-12 community and the general public. The College of Ocean and Fishery Sciences and the School of Oceanography spearheaded the creation of several innovative programs in ocean sciences to contribute to the improvement of Earth science education. Two of these programs are the REVEL Project and the Marine Science Student Mobility (MSSM) program that share the philosophy of involving school districts, K-12 science teachers, their students and undergraduate students in current, international, cutting-edge oceanographic research. The REVEL Project (Research and Education: Volcanoes, Exploration and Life) is an NSF-funded, professional development program for middle and high school science teachers that are determined to use deep-sea research and seafloor exploration as tools to implement inquiry-based science in their classrooms, schools, and districts, and to share their experiences with their communities. Initiated in 1996 as a regional program for Northwest science educators, REVEL evolved into a multi-institutional program inviting teachers to practice doing research on sea-going research expeditions. Today, in its 7th year, the project offers teachers throughout the U. S. an opportunity to participate and contribute to international, multidisciplinary, deep-sea research in the Northeast Pacific ocean to study the relationship between geological processes such as earthquakes and volcanism, fluid circulation and life on our planet. http://www.ocean.washington.edu/outreach/revel/ The Marine Science Student Mobility program is a FIPSE-funded program that fosters communication and collaboration across cultural and linguistic boundaries for undergraduate students interested in pursuing careers in marine sciences. A consortium of six universities in Florida, Hawaii, Washington, Belgium, Spain and France offers a unique way to study abroad. During a six month exchange, students acquire foreign language skills, cultural awareness and ocean sciences field study in one of the four major oceanographic areas: the Atlantic, the Pacific, the Gulf of Mexico and the Mediterranean. The program not only promotes cultural understanding among the participant students but among faculty members from different educational systems, and even among language and science faculty members. Understanding how different cultures approach, implement, and interpret scientific research to better study the world's oceans is the cornerstone of this educational approach. http://www.marine-language-exch.org/ Similar collaborative, educational activities could be adapted by other research institutions on many campuses to provide many opportunities for students, teachers and the general public to get involved in Earth and ocean sciences.

Inclusive Science Education: Learning from Wizard

ERIC Educational Resources Information Center

Koomen, Michele Hollingsworth

2016-01-01

This case study reports on a student with special education needs in an inclusive seventh grade life science classroom using a framework of disability studies in education. Classroom data collected over 13 weeks consisted of qualitative (student and classroom observations, interviews, student work samples and video-taped classroom teaching and…

From professional lives to inclusive practice: Science teachers and scientists' views of gender and ethnicity in science education

NASA Astrophysics Data System (ADS)

Bianchini, Julie A.; Cavazos, Lynnette M.; Helms, Jenifer V.

2000-08-01

To provide insight into issues of gender and ethnicity in science education, we examine the views of approximately 60 secondary science teachers and university scientists from three different research projects. In each project, participants and researcher explored the intersection of professional and personal identities; views of the nature of science; beliefs related to students' experiences in science education; and kinds of curricular and instructional strategies used to promote access and equity for all students. Participants' interviews were analyzed qualitatively for patterns across these four dimensions of inclusive science education. Analysis of data revealed a wide range of beliefs and experiences along each dimension. From our findings, we argue for careful examination of the ways identities shape instructors' professional experiences and educational practices; critical, constructive conversations about feminist science studies scholarship between professional developers and science teachers or scientists; and reasoned reflection on how views of students can inform recommendations for inclusive content and instruction. We conclude with the call for increased sophistication in the conceptualization and implementation of solutions to the problem of women and ethnic minorities in science education, for balancing recognition of systematic gender and ethnic bias with sensitivity to instructors and students' diverse interests and experiences.

Improving Science Attitude and Creative Thinking through Science Education Project: A Design, Implementation and Assessment

ERIC Educational Resources Information Center

Sener, Nilay; Türk, Cumhur; Tas, Erol

2015-01-01

The purpose of this study is to examine the effects of a science education project implemented in different learning environments on secondary school students' creative thinking skills and their attitudes to science lesson. Within this scope, a total of 50 students who participated in the nature education project in Samsun City in 2014 make up the…

Middle school girls: Experiences in a place-based education science classroom

NASA Astrophysics Data System (ADS)

Shea, Charlene K.

The middle school years are a crucial time when girls' science interest and participation decrease (Barton, Tan, O'Neill, Bautista-Guerra, & Brecklin, 2013). The purpose of this study was to examine the experiences of middle school girls and their teacher in an eighth grade place-based education (PBE) science classroom. PBE strives to increase student recognition of the importance of educational concepts by reducing the disconnection between education and community (Gruenewald, 2008; Smith, 2007; Sobel, 2004). The current study provides two unique voices---the teacher and her students. I describe how this teacher and her students perceived PBE science instruction impacting the girls' participation in science and their willingness to pursue advanced science classes and science careers. The data were collected during the last three months of the girls' last year of middle school by utilizing observations, interviews and artifacts of the teacher and her female students in their eighth grade PBE science class. The findings reveal how PBE strategies, including the co-creation of science curriculum, can encourage girls' willingness to participate in advanced science education and pursue science careers. The implications of these findings support the use of PBE curricular strategies to encourage middle school girls to participate in advance science courses and science careers.

Improving Health with Science: Exploring Community-Driven Science Education in Kenya

NASA Astrophysics Data System (ADS)

Leak, Anne Emerson

This study examines the role of place-based science education in fostering student-driven health interventions. While literature shows the need to connect science with students' place and community, there is limited understanding of strategies for doing so. Making such connections is important for underrepresented students who tend to perceive learning science in school as disconnected to their experiences out of school (Aikenhead, Calabrese-Barton, & Chinn, 2006). To better understand how students can learn to connect place and community with science and engineering practices in a village in Kenya, I worked with community leaders, teachers, and students to develop and study an education program (a school-based health club) with the goal of improving knowledge of health and sanitation in a Kenyan village. While students selected the health topics and problems they hoped to address through participating in the club, the topics were taught with a focus on providing opportunities for students to learn the practices of science and health applications of these practices. Students learned chemistry, physics, environmental science, and engineering to help them address the health problems they had identified in their community. Surveys, student artifacts, ethnographic field notes, and interview data from six months of field research were used to examine the following questions: (1) In what ways were learning opportunities planned for using science and engineering practices to improve community health? (2) In what ways did students apply science and engineering practices and knowledge learned from the health club in their school, homes, and community? and (3) What factors seemed to influence whether students applied or intended to apply what they learned in the health club? Drawing on place-based science education theory and community-engagement models of health, process and structural coding (Saldana, 2013) were used to determine patterns in students' applications of their learning. Students applied learning across health topics they identified as interesting and relevant to their community: hand-washing, disease-prevention, first aid, balanced diet, and water. Students' application of their learning was influenced by internal, external, and relational factors with the community, science education factors, and cultural factors. Some factors, which may have been barriers for students to apply their learning, were turned into supports via bridging strategies used by the students and teacher. Bridging strategies allowed students to connect between their place and science in meaningful ways in the classroom. These strategies were critical in bringing students' place into the classroom and enabling students to apply their learning toward place. The model resulting from the identified factors informed existing models for sociocultural considerations in community-based health interventions. The community-engagement applied practices of science (CAPS) model serves to conceptualize findings in this study and informs an integrated method for using community-engagement education as a stimuli for students to become cultural brokers and improve community health. In addition to focusing on teaching practices of science and encouraging students to apply their learning, this research suggests that bridging strategies can be used to connect science with a students' place in meaningful ways that serve both students and their local communities.

Science Literacy for All Students.

ERIC Educational Resources Information Center

Brown, Peggy, Ed.

1982-01-01

Selected college programs designed to increase students' science literacy are described, and perspectives on science education are addressed in an article by E. James Rutherford, "Sputnik, Halley's Comet, and Science Education." The article suggests that leadership and consensus are needed at the national level to improve science…

Sharing Ideas: Making Earth and Space Science Accessible

NASA Astrophysics Data System (ADS)

Runyon, C. J.; Guimond, K.; Atkinson, C.

2005-12-01

There are nearly six million K-12 students with some form of disability in the U.S. and the majority of them are required to achieve the same academic levels as their non-impaired peers. Historically, students with disabilities have experienced difficulties in fully accessing and participating in middle school and high school science programs. With the passage of the No Child Left Behind (NCLB) Act and increasing focus on reading and math performance, many students with exceptional needs are now being taught science by mainstream science teachers, who have little to no training on how to work with students with exceptional needs. For the past 5 years, SERCH has engaged in organizing and hosting a series of Exceptional Space Science Materials for Exceptional Students Workshops (ENWS) focused on educating students with special needs about the space sciences. Each workshop has focused on a different aspect of formal and informal education and working with the various special needs. In all of these workshops, participants experience what a person or student with special needs might encounter when working through educational activities or exhibits by experiencing it first-hand. In addition to making many of NASA's education materials accessible for all learners, a top-ten list of "best practices" has been compiled by the professional educators as a result of our working together for five years and their formal and informal educational experiences.

Learning Science and the Science of Learning. Science Educators' Essay Collection.

ERIC Educational Resources Information Center

Bybee, Rodger W., Ed.

This yearbook addresses critical issues in science learning and teaching. Contents are divided into four sections: (1) "How Do Students Learn Science?"; (2) "Designing Curriculum for Student Learning"; (3) "Teaching That Enhances Student Learning"; and (4) "Assessing Student Learning." Papers include: (1) "How Students Learn and How Teachers…

Tailoring science education graduate programs to the needs of science educators in low-income countries

NASA Astrophysics Data System (ADS)

Lunetta, Vincent N.; van den Berg, Euwe

Science education graduate programs in high-income countries frequently enroll students from low-income countries. Upon admission these students have profiles of knowledge, skills, and experiences which can be quite different from those of students from the host high-income countries. Upon graduation, they will normally return to work in education systems with conditions which differ greatly from those in high-income countries. This article attempts to clarify some of the differences and similarities between such students. It offers suggestions for making graduate programs more responsive to the special needs of students from low-income countries and to the opportunities they offer for enhancing cross-cultural sensitivity. Many of the suggestions can be incorporated within existing programs through choices of elective courses and topics for papers, projects, and research. Many references are provided to relevant literature on cultural issues and on science education in low-income countries.

Crossing the Border from Science Student to Science Teacher: Preservice Teachers' Views and Experiences Learning to Teach Inquiry

NASA Astrophysics Data System (ADS)

Kang, Emily J. S.; Bianchini, Julie A.; Kelly, Gregory J.

2013-04-01

Preservice science teachers face numerous challenges in understanding and teaching science as inquiry. Over the course of their teacher education program, they are expected to move from veteran science students with little experience learning their discipline through inquiry instruction to beginning science teachers adept at implementing inquiry in their own classrooms. In this study, we used Aikenhead's (Sci Educ 81: 217-238, 1997, Science Educ 85:180-188, 2001) notion of border crossing to describe this transition preservice teachers must make from science student to science teacher. We examined what one cohort of eight preservice secondary science teachers said, did, and wrote as they both conducted a two-part inquiry investigation and designed an inquiry lesson plan. We conducted two types of qualitative analyses. One, we drew from Costa (Sci Educ 79: 313-333, 1995) to group our preservice teacher participants into one of four types of potential science teachers. Two, we identified successes and struggles in preservice teachers' attempts to negotiate the cultural border between veteran student and beginning teacher. In our implications, we argue that preservice teachers could benefit from explicit opportunities to navigate the border between learning and teaching science; such opportunities could deepen their conceptions of inquiry beyond those exclusively fashioned as either student or teacher.

The function of questions in Omani fourth grade inquiry-based science classrooms: A sociocultural perspective

NASA Astrophysics Data System (ADS)

Al-Shaibani, Madiha Ahmed

2005-11-01

Studies indicate that science education reforms are globally converging. Many countries are adopting the globally advocated science education reforms for the purpose of obtaining the competitive edge in science education and technology that are viewed as the driving forces of modern economies. Globally, science education reforms are emphasizing paradigm shifts in which constructivist instructional are foregrounded. Many science education curricular documents advocate teaching science through engaging students in scientific inquiry. As a result, science classrooms are becoming more student-centered where students are typically actively engaged in inquiry learning. Even though inquiry instruction has become the common approach in teaching science, the actual implementation of inquiry in classrooms indicates that there is a big gap between the intended inquiry advocated in curricula documents and the actual practices in classroom settings. One of the main features of inquiry instruction is student questions. Authentic student questions are essential for the initiating and main scientific inquiry. However, studies have also illustrated the rarity of student questions in classrooms. This dearth in student questions has been attributed to the discursive practices in classrooms. Classrooms that implement the traditional IRE discourse structure tend to have less student questions. On the other hand, reflective questioning is considered a more appropriate classroom discourse structure because it intentionally invites student questions and engages students in classroom discussions. This qualitative study addresses the issue of questioning in fourth grade inquiry-based science classrooms of the Omani Basic Education system. Methods employed in this study included: participant observation, individual interviews, focus group interviews and the collection of artifacts. Findings of this study illustrated the rarity of student questions in the classrooms. However this investigation also revealed the connection between teacher beliefs and implementation of reforms. Teachers whose beliefs were aligned with reforms came closer to implementing reform initiatives as opposed to teachers whose beliefs were not aligned with reform initiatives. The findings of this study were inconclusive when it came to linking teachers' questioning practices to teachers' understanding of inquiry methods.

Science Students and the Social Sciences: Strange Bedfellows?

ERIC Educational Resources Information Center

Yeong, Foong May

2014-01-01

With various internet resources available to students, the main aim of a good university education today should not merely be to provide students with content knowledge, but rather to equip them with essential skills necessary to develop into lifelong learners. Among science educators, repeated calls have been made to promote a more holistic…

Student Opinion in England about Science and Technology

ERIC Educational Resources Information Center

Jenkins, Edgar

2006-01-01

An earlier paper in this Journal (Jenkins & Nelson, 2005) drew upon the findings of the Relevance of Science Education Project (ROSE) to report the attitudes of students in England towards their secondary school science education. The present paper draws upon the same project to explore what the same students, almost all in their penultimate…

Scientific and Cultural Knowledge in Intercultural Science Education: Student Perceptions of Common Ground

ERIC Educational Resources Information Center

Gondwe, Mzamose; Longnecker, Nancy

2015-01-01

There is no consensus in the science education research community on the meanings and representations of western science and indigenous knowledge or the relationships between them. How students interpret these relationships and their perceptions of any connections has rarely been studied. This study reports student perceptions of the meaning and…

Popular Media in the Biology Classroom: Viewing Popular Science Skeptically

ERIC Educational Resources Information Center

Gardner, Grant E.; Jones, M. Gail; Ferzli, Miriam

2009-01-01

It can be argued that the responsibilities of biology educators to their students extend far beyond the delivery of science content. Educators are also charged with ensuring that students do not temporarily memorize the information, but actively integrate it into their daily lives. Personal integration of science content should prepare students to…

Acting in Our Own Self-Interests: Blending University and Community in Informal Science Education

NASA Astrophysics Data System (ADS)

Finkelstein, Noah D.; Mayhew, Laurel

2008-10-01

Research in physics education has demonstrated new tools and models for improving the understanding and engagement of traditional college students [1]. Building on this base, the research community has bridged the gap from college to pre-college education, even elementary school [2]. However, little work has been done to engage students in out-of-school settings, particularly for those students from populations under-represented in the sciences. We present a theoretically-grounded model of university-community partnership [3] that engages university students and children in a collective enterprise that has the potential to improve the participation and education of all. We document the impact of these programs on: university participants who learn about education, the community and even some science; children in the community who learn about science, the nature of science and develop their identities and attitudes towards science; and, shifts in institutional practice which may allow these programs to be sustained, or not.

Educational System for Enhancing the Creative Interest of Elementary School Students: A Case Study of a Science Class

NASA Astrophysics Data System (ADS)

Soe, Kumi; Motohashi, Mitsuya; Niwa, Masaaki; Tamaki, Akira

Abstract Our research group engages in activities for promoting science education among children. A characteristic of our science curriculum is that it comprises two parts. To elaborate, a requirement of our science curriculum is that before proceeding to a handcrafting activity, students take part in experiments and observe the physical phenomena related to the object that they construct in the second part. We believe that our science class, which comprises two phases of education, can further stimulate students' interest in science because they not only engage in handcrafting of objects, but also learn the underlying principles and structures of these objects.

Science and Me: A Student-Driven Science Outreach Program for Lay Adult Audiences

ERIC Educational Resources Information Center

Alexander, Hannah; Waldron, Anna M.; Abell, Sandra K.

2011-01-01

The increasing need for communicating science to the public suggests that future scientists and science educators should be educated in science outreach and trained to communicate with lay audiences. We present a recently developed novel graduate course, which trains students in outreach efforts aimed to increase the public's understanding of…

Integrating Art into Science Education: A Survey of Science Teachers' Practices

ERIC Educational Resources Information Center

Turkka, Jaakko; Haatainen, Outi; Aksela, Maija

2017-01-01

Numerous case studies suggest that integrating art and science education could engage students with creative projects and encourage students to express science in multitude of ways. However, little is known about art integration practices in everyday science teaching. With a qualitative e-survey, this study explores the art integration of science…

Regional Queensland Parents' Views of Science Education: Some Unexpected Perceptions

ERIC Educational Resources Information Center

Boon, Helen J.

2012-01-01

Low post-compulsory science enrolments for secondary students have been a growing concern across the Western world. Research has examined factors relating to science curricula and students' attitudes about science, but parental views of science education remain largely unexplored in Australia. Because parents have a strong role in shaping their…

Teachers, Research, and Reform: Improving Teaching and Learning in High School Science Courses.

ERIC Educational Resources Information Center

Kaiser, Bonnie

One of the challenges issued by the National Science Education Standards is for students to learn the content and process of modern scientific inquiry by engaging in research and entering science competitions. The Rockefeller University Precollege Science Education Outreach Programs (Science Outreach) provide access for about 70 students from…

Developing a constructivist learning environment in online postsecondary science courses

NASA Astrophysics Data System (ADS)

Hackworth, Sylvester N.

This Delphi study addressed the concerns of postsecondary educators regarding the quality of education received by postsecondary science students who receive their instruction online. This study was framed with the constructivist learning theory and Piaget's and Dewey's cognitive development theories. The overarching question addressed a gap in research literature surrounding the pedagogical practices that could be successfully applied to future postsecondary online science education. The panel consisted of 30 experts in the area of online postsecondary education. Qualitative data from the initial seed questions were used to create a Likert-type survey to seek consensus of the themes derived from participant responses. Participants reached agreement on six items: apply constructivism to science curricula, identify strengths and challenges of online collegiate students, explicate students' consequences due to lack of participation in discussion forums, ensure that online course content is relevant to students' lives, reinforce academic integrity, and identify qualities face-to-face collegiate science instructors need when transitioning to online science instructors. The majority of participants agreed that gender is not an important factor in determining the success of an online collegiate science student. There was no consensus on the efficacy of virtual labs in an online science classroom. This study contributes to positive social change by providing information to new and struggling postsecondary science teachers to help them successfully align their instruction with students' needs and, as a result, increase students' success.

Science in the General Educational Development (GED) curriculum: Analyzing the science portion of GED programs and exploring adult students' attitudes toward science

NASA Astrophysics Data System (ADS)

Hariharan, Joya Reena

The General Educational Development (GED) tests enable people to earn a high school equivalency diploma and help them to qualify for more jobs and opportunities. Apart from this main goal, GED courses aim at enabling adults to improve the condition of their lives and to cope with a changing society. In today's world, science and technology play an exceedingly important role in helping people better their lives and in promoting the national goals of informed citizenship. Despite the current efforts in the field of secondary science education directed towards scientific literacy and the concept of "Science for all Americans", the literature does not reflect any corresponding efforts in the field of adult education. Science education research appears to have neglected a population that could possibly benefit from it. The purpose of this study is to explore: the science component of GED programs, significant features of the science portion of GED curricula and GED science materials, and adult learners' attitudes toward various aspects of science. Data collection methods included interviews with GED students and instructors, content analysis of relevant materials, and classroom observations. Data indicate that the students in general feel that the science they learn should be relevant to their lives and have direct applications in everyday life. Student understanding of science and interest in it appears to be contingent to their perceiving it as relevant to their lives and to society. Findings indicate that the instructional approaches used in GED programs influence students' perceptions about the relevance of science. Students in sites that use strategies such as group discussions and field trips appear to be more aware of science in the world around them and more enthusiastic about increasing this awareness. However, the dominant strategy in most GED programs is individual reading. The educational strategies used in GED programs generally focus on developing reading skills rather than the internalization of knowledge or influencing attitudes. An interesting finding is that GED science materials do attend to the relevance of science in everyday life but students' appreciation of this depends on the strategies employed.

Why Rural Community Day Secondary Schools Students' Performance in Physical Science Examinations Is Poor in Lilongwe Rural West Education District in Malawi

ERIC Educational Resources Information Center

Mlangeni, Angstone Noel J. Thembachako; Chiotha, Sosten Staphael

2015-01-01

A study was conducted to investigate factors that affect students' poor performance in physical science examinations at Malawi School Certificate of Education and Junior Certificate of Education levels in Community day secondary schools (CDSS) in Lilongwe Rural West Education District in Malawi. Students' performance was collected from schools'…

Science education through informal education

NASA Astrophysics Data System (ADS)

Kim, Mijung; Dopico, Eduardo

2016-06-01

To develop the pedagogic efficiency of informal education in science teaching, promoting a close cooperation between institutions is suggested by Monteiro, Janerine, de Carvalho, and Martins. In their article, they point out effective examples of how teachers and educators work together to develop programs and activities at informal education places such as science museums. Their study explored and discussed the viability and relevancy of school visits to museums and possibilities to enhance the connection between students' visits in informal contexts and their learning in schools. Given that students learn science by crossing the boundaries of formal and informal learning contexts, it is critical to examine ways of integrated and collaborative approach to develop scientific literacy to help students think, act and communicate as members of problem solving communities. In this forum, we suggest the importance of students' lifeworld contexts in informal learning places as continuum of Monteiro, Janerine, de Carvalho, and Martins' discussion on enhancing the effectiveness of informal learning places in science education.

Analysis on the effectiveness of gifted education by studying perceptions of science gifted education recipients

NASA Astrophysics Data System (ADS)

Jung, Hyun-Chul; Ryu, Chun-Ryol; Choi, Jinsu; Park, Kyeong-Jin

2016-04-01

The necessity of science gifted education is persistently emphasized in the aspect of developing individuals' potential abilities and enhancing national competitiveness. In the case of Korea, gifted education has been conducted on a national level ever since the country established legal and institutional strategies for gifted education in 2000. Even though 15 years has passed since a full-scale implementation of gifted education has started, there are few researches on the effectiveness of gifted education. Therefore, considering the splashdown effect, that a long period of time is needed to obtain reliable assessments on education effectiveness, this research surveyed gifted education recipients to study the effectiveness of gifted education. For this cause, we developed an questionnaire and conducted a survey of university students who had experience of receiving science gifted education. We deduced the following from the analysis. First, generally the recipients were satisfied with their gifted education experiences, but thought that not enough opportunities were provided on problem solving ability enhancement and career related aspects. Second, schools considered 'experiments' as the most effective teaching method, regardless to the stage of education. In addition, they perceived 'discussions and presentations' as effective education methods for elementary school students; 'theme investigating classes' for middle school students; and lectures for high school students. It could be seen that various experiences were held important for elementary school students and as students went into high school education, more emphasis was placed on the importance of understanding mathematical and scientific facts. Third, on gifted education teaching staffs, satisfaction of professionalism on specialities were high but satisfaction of variety of teaching methods were relatively low. In this research, to encourage science gifted students to meet their potentials, we propose the following: a variety of gifted education programs which could not be provided in regular curriculums, expansion in career education programs on finding careers in science technology, and the necessity of teacher training to enhance gifted education teaching method professionalism. Keywords : science gifted education, recipients, effectiveness of education, education program, teaching method, teacher professionalism

[Educational science, 'the hardest science of all'].

PubMed

van Tartwijk, J; Driessen, E W; van der Vleuten, C P M; Wubbels, T

2012-06-01

Educational research not only showed that student characteristics are of major importance for study success, but also that education does make a difference. Essentially, teaching is about stimulating students to invest time in learning and to use that time as effectively as possible. Assessment, goal-orientated work, and feedback have a major effect. The teacher is the key figure. With the aim to better understand teaching and learning, educational researchers usefindingsfrom other disciplines more and more often. A pitfall is to apply the findings of educational research without taking into consideration the context and the specific characteristics of students and teachers. Because of the large number offactors that influence the results ofeducation, educational science is referred as 'the hardest science of all'.

From a Sense of Stereotypically Foreign to Belonging in a Science Community: Ways of Experiential Descriptions About High School Students' Science Internship

NASA Astrophysics Data System (ADS)

Hsu, Pei-Ling; Roth, Wolff-Michael

2010-05-01

Science educators often suggest that students should learn science in ways and settings that bear family resemblance with “the real thing.” Internship in science laboratories constitutes one such way in which students may learn science and learn about science. However, very little is known about how participants experience a science internship in an “authentic” science setting (i.e., a science laboratory). Our study was designed to understand the nature of participants’ experiences of “authentic science.” Participants included 11 high school students, one high school teacher, five laboratory technicians, and two scientists. High school students practiced science alongside technicians (young scientists) in real ongoing projects of a biology laboratory. Data sources include 19 semi-structured and video-recorded interviews held after the 2-month science internship. Drawing on phenomenographic method, we identified five categories of experiential descriptions: (a) authenticity of university science, (b) channeling and connecting different communities, (c) advanced knowledge required in and lengthy procedures mobilized by university science, (d) self-exploration and reflection, and (e) comprehensive science learning. Each category’s meaning for participants and implications for science education are illustrated and discussed. This study demonstrates positive evidence of the science internship on helping students learn different dimensions of science and reflect their relationship with science. Suggestions on facilitating the partnership between secondary and postsecondary education are provided.

Science Education Impacts on Labor Market and University Expectations of Students by Citizenship Status in the Kingdom of Saudi Arabia: A Comparative Analysis Using TIMSS 2007 Data

ERIC Educational Resources Information Center

Wiseman, Alexander W.; Alromi, Naif H.; Alshumrani, Saleh

2013-01-01

This study comparatively examines the impact of students' citizenship status on science education relative to labor market and university expectations in the Kingdom of Saudi Arabia. Specifically, the 2007 Trends in International Mathematics and Science Study (TIMSS) provides science education teaching, learning and achievement data from the…

Astronomy Education in Greece

NASA Astrophysics Data System (ADS)

Metaxa, M.

Basic education is fundamental to higher education and scientific and technological literacy. We can confront the widespread adult ignorance and apathy about science and technology. Astronomy, an interdisciplinary science, enhances students' interest and overcomes educational problems. Three years ago, we developed astronomy education in these ways: 1. Summer School for School Students. (50 students from Athens came to the first Summer School in Astrophysics at the National Observatory, September 2-5, 1996, for lectures by professional astronomers and to be familiarized with observatory instruments. 2. Introducing Students to Research. (This teaches students more about science so they are more confident about it. Our students have won top prizes in European research contests for their studies of objects on Schmidt plates and computations on PCs.) 3. Hands-on Activities. (Very important because they bring students close to their natural environment. Activities are: variable-star observations (AAVSO), Eratosthenes project, solar-eclipse, sunspot and comet studies. 4. Contact with Professional Astronomers and Institutes. (These help students reach their social environment and motivate them as "science carriers". We try to make contacts at astronomical events, and through visits to appropriate institutions.) 5. Internet Programs. (Students learn about and familiarize themselves with their technological environment.) 6. Laboratory exercises. (Students should do science, not just learn about it We introduced the following lab. exercises: supernova remnants, galaxy classification, both from Schmidt plates, celestial sphere.

A college of science: Bridging the gap between school and university

NASA Astrophysics Data System (ADS)

Rutherford, Margaret; Zietsman, Aletta

1992-12-01

Many tertiary institutions in South Africa have implemented schemes to help redress the unfair school educational system. This paper describes one such initiative to increase access and success of educationally disadvantaged students in science. The background of the College of Science and the success of its first intake of students is described with an emphasis on the physics component of the physical sciences course. Sixty six percent of the students passed all three courses in their first year with the most educationally disadvantaged showing the greatest gains.

Outcomes for Engineering Students Delivering a STEM Education and Outreach Programme

ERIC Educational Resources Information Center

Fitzallen, Noleine; Brown, Natalie Ruth

2017-01-01

University science outreach programmes are used to encourage more school students to select science, technology, engineering, and mathematics (STEM) subjects in further education and pursue science-related careers. The benefits of science outreach programmes are often espoused from the perspective of programme participants. Little attention,…

Science Education Reform in Qatar: Progress and Challenges

ERIC Educational Resources Information Center

Said, Ziad

2016-01-01

Science education reform in Qatar has had limited success. In the Trends in International Mathematics and Science Study (TIMMS), Qatari 4th and 8th grade students have shown progress in science achievement, but they remain significantly below the international average. Also, in the Program for International Student Assessment (PISA), Qatari…

A Study of Micro-Teaching in the Preservice Education of Science Teachers.

ERIC Educational Resources Information Center

Goldwaite, Daniel Thaddeus

The effectiveness of microteaching techniques for improving presentation of science demonstrations by perspective science teachers was investigated. Three groups of students of ten members each were randomly selected from professional education courses for science teachers. Group A students presented two trials of two different demonstrations.…

Seeing May Not Mean Believing: Examining Students' Understandings & Beliefs in Evolution

ERIC Educational Resources Information Center

Cavallo, Ann M. L.; McCall, David

2008-01-01

Science education currently has incomplete understandings of potential relationships between students' beliefs in Nature of Science (NOS) and evolution, and how these beliefs may be related to scientific understandings of evolution. Because of evolution's prominence in science education, curricula decisions, and the future of science teaching and…

Multicultural education, pragmatism, and the goals of science teaching

NASA Astrophysics Data System (ADS)

El-Hani, Charbel Niño; Mortimer, Eduardo Fleury

2007-07-01

In this paper, we offer an intermediate position in the multiculturalism/universalism debate, drawing upon Cobern and Loving's epistemological pluralism, pragmatist philosophies, Southerland's defense of instructional multicultural science education, and the conceptual profile model. An important element in this position is the proposal that understanding is the proper goal of science education. Our commitment to this proposal is explained in terms of a defense of an ethics of coexistence for dealing with cultural differences, according to which social argumentative processes—including those in science education—should be marked by dialogue and confrontation of arguments in the search of possible solutions, and an effort to (co-)live with differences if a negotiated solution is not reached. To understand the discourses at stake is, in our view, a key requirement for the coexistence of arguments and discourses, and the science classroom is the privileged space for promoting an understanding of the scientific discourse in particular. We argue for "inclusion" of students' culturally grounded ideas in science education, but in a sense that avoids curricular multicultural science education, and, thus, any attempt to broaden the definition of "science" so that ideas from other ways of knowing might be simply treated as science contents. Science teachers should always take in due account the diversity of students' worldviews, giving them room in argumentative processes in science classrooms, but should never lose from sight the necessity of stimulating students to understand scientific ideas. This view is grounded on a distinction between the goals of science education and the nature of science instruction, and demands a discussion about how learning is to take place in culturally sensitive science education, and about communicative approaches that might be more productive in science classrooms organized as we propose here. We employ the conceptual profile model to address both issues. We expect this paper can contribute to the elaboration of an instructional multicultural science education approach that eliminates the forced choice between the goals of promoting students' understanding of scientific ideas and of empowering students through education.

The Role of a Museum-Based Science Education Program in Promoting Content Knowledge and Science Motivation

ERIC Educational Resources Information Center

Martin, Andrew J.; Durksen, Tracy L.; Williamson, Derek; Kiss, Julia; Ginns, Paul

2016-01-01

Informal learning settings such as museums have been identified as opportunities to enhance students' knowledge and motivation in science and to optimize the connection between science and everyday life. The present study assessed the role of a self-paced science education program (situated in a medical science museum) in enhancing students'…

Hidden student voice: A curriculum of a middle school science class heard through currere

NASA Astrophysics Data System (ADS)

Crooks, Kathleen Schwartz

Students have their own lenses through which they view school science and the students' views are often left out of educational conversations which directly affect the students themselves. Pinar's (2004) definition of curriculum as a 'complicated conversation' implies that the class' voice is important, as important as the teacher's voice, to the classroom conversation. If the class' voice is vital to classroom conversations, then the class, consisting of all its students, must be allowed to both speak and be heard. Through a qualitative case study, whereby the case is defined as a particular middle school science class, this research attempts to hear the 'complicated conversation' of this middle school science class, using currere as a framework. Currere suggests that one's personal relationship to the world, including one's memories, hopes, and dreams, should be the crux of education, rather than education being primarily the study of facts, concepts, and needs determined by an 'other'. Focus group interviews were used to access the class' currere: the class' lived experiences of science, future dreams of science, and present experiences of science, which was synthesized into a new understanding of the present which offered the class the opportunity to be fully educated. The interview data was enriched through long-term observation in this middle school science classroom. Analysis of the data collected suggests that a middle school science class has rich science stories which may provide insights into ways to engage more students in science. Also, listening to the voice of a science class may provide insight into discussions about science education and understandings into the decline in student interest in science during secondary school. Implications from this research suggest that school science may be more engaging for this middle school class if it offers inquiry-based activities and allows opportunities for student-led research. In addition, specialized academic and career advice in early middle school may be able to capitalize on this class' positive perspective toward science. Further research may include using currere to hear the voices of middle school science classes with more diverse demographic qualities.

Science achievement of students in the Republic of Yemen and implications for improvement of science instruction

NASA Astrophysics Data System (ADS)

Ismail, Nageeb Kassem

The purpose of this study was to establish a research base from which strategies could be developed for improving science education in Yemen. The study measured the achievement in general science of Yemeni students attending primary, preparatory, and secondary schools, and their counterparts attending three- or five-year education programs in primary teacher training institutions. A sample of 1,984 students from six major cities in Yemen was given the Second International Science Study test in May 1988. Achievement scores of these selected groups were compared. The mean achievement in general science was 11.93 for science track students, 9.21 for three-year teacher training institution students, and 8.49 for five-year teacher training institution students. These mean scores were based on a total of 35 items. This low level of achievement was further verified by making comparisons of the achievement of selected groups from Yemeni high schools in six cities with each other. The following factors were measured in this study: location, grade level, gender and type of science program studied. Selected groups from Yemeni high schools were also compared to their peers in other nations. The researcher compared students of the science track and teacher training institutions to their counterparts in 13 nations and students of the literature track to their counterparts in eight nations. Fifth and ninth grade students' scores were compared with the scores of their counterparts in 15 and 17 nations respectively. In every comparison, every Yemeni group ranked at the bottom of the achievement list. (Jacobson W., & Doran, R. 1988) The outcomes of this research indicate the profound need for improving science programs in all grade levels in Yemen. The research recommendations for improvement in science education in Yemen fall into four areas: a change in attitudes toward education, a change in teacher education, a change in classroom conditions, and a change in educational opportunities for women. Because this research study was based on a sizable sample and many hypotheses were tested, this work has contributed appreciable to the base of data available to future researchers. This study also implemented use of the SISS instrument for the first time in Arabic.

Creating Science Education Specialists and Scientific Literacy in Students through a Successful Partnership among Scientists, Science Teachers, and Education Researchers

NASA Astrophysics Data System (ADS)

Metoyer, S.; Prouhet, T.; Radencic, S.

2007-12-01

The nature of science and the nature of learning are often assumed to have little practical relationship to each other. Scientists conduct research and science teachers teach. Rarely do the scientist and the science teacher have an opportunity to learn from each other. Here we describe results from a program funded by NSF, the Information Technology in Science (ITS) Center for Teaching and Learning. The ITS Center provided the support and structure necessary for successful long-term collaboration among scientists, science teachers, and education researchers that has resulted in the creation of new science education specialists. These specialists are not only among the science teachers, but also include avid recruits to science education from the scientists themselves. Science teachers returned to their classrooms armed with new knowledge of content, inquiry, and ideas for technology tools that could support and enhance students' scientific literacy. Teachers developed and implemented action research plans as a means of exploring educational outcomes of their use and understanding of new technologies and inquiry applied to the classroom. In other words, they tried something different in the class related to authentic inquiry and technology. They then assessed the students' to determine if there was an impact to the students in some way. Many of the scientists, on the other hand, report that they have modified their instructional practices for undergraduate courses based on their experiences with the teachers and the ITS Center. Some joined other collaborative projects pairing scientists and educators. And, many of the scientists continue on-going communication with the science teachers serving as mentors, collaborators, and as an "expert" source for the students to ask questions to. In order to convey the success of this partnership, we illustrate and discuss four interdependent components. First, costs and benefits to the science teacher are discussed through case studies, survey results, and descriptive categories. Costs and benefits to the scientist are discussed through the use of case studies, surveys, and observations. Third, student learning outcomes from a case study are presented. It is argued that the partnership created the opportunity for the integration of imaginative tools of science (specifically GIS in the case study) and authentic science inquiry. The last component is the discussion of the various tools of science utilized by the scientists for their research, taught to the science teachers by the scientists, and then taught to the students by the science teachers. At each step the technology was modified to fit the levels and applications of the specific science teacher, the grade level taught, and the content area taught. Examples of imaginative tools utilized include Geographic Information System (GIS), Global Positioning System (GPS), Google Earth, time-lapse photography, digital microscopy, and Excel. In summary, by examining this collaborative partnership through the lens of the scientists, the science teachers, and the science teachers' students it is evident that this partnership has created new science education specialists and can ultimately improve scientific literacy in K-12 students. Reference: NRC (2005). How Students Learn. The National Academies Press. Washington D.C.

Capturing and portraying science student teachers' pedagogical content knowledge through CoRe construction

NASA Astrophysics Data System (ADS)

Thongnoppakun, Warangkana; Yuenyong, Chokchai

2018-01-01

Pedagogical content knowledge (PCK) is an essential kind of knowledge that teacher have for teaching particular content to particular students for enhance students' understanding, therefore, teachers with adequate PCK can give content to their students in an understandable way rather than transfer subject matter knowledge to learner. This study explored science student teachers' PCK for teaching science using Content representation base methodology. Research participants were 68 4th year science student teachers from department of General Science, faculty of Education, Phuket Rajabhat University. PCK conceptualization for teaching science by Magnusson et al. (1999) was applied as a theoretical framework in this study. In this study, Content representation (CoRe) by Loughran et al. (2004) was employed as research methodology in the lesson preparation process. In addition, CoRe consisted of eight questions (CoRe prompts) that designed to elicit and portray teacher's PCK for teaching science. Data were collected from science student teachers' CoRes design for teaching a given topic and student grade. Science student teachers asked to create CoRes design for teaching in topic `Motion in one direction' for 7th grade student and further class discussion. Science student teachers mostly created a same group of science concepts according to subunits of school science textbook rather than planned and arranged content to support students' understanding. Furthermore, they described about the effect of student's prior knowledge and learning difficulties such as students' knowledge of Scalar and Vector quantity; and calculating skill. These responses portrayed science student teacher's knowledge of students' understanding of science and their content knowledge. However, they still have inadequate knowledge of instructional strategies and activities for enhance student learning. In summary, CoRes design can represented holistic overviews of science student teachers' PCK related to the teaching of a particular topic and also support them to gain more understanding about how to teach for understanding. Research implications are given for teacher education and educational research to offer a potential way to enhance science student teachers' PCK for teaching science and support their professional learning.

Moving Forward: State Engagement with the Next Generation Science Standards. Special re:VISION Insert. Issue 5

ERIC Educational Resources Information Center

Hunt Institute, 2014

2014-01-01

A rigorous K-12 science education builds student knowledge in core scientific content and equips students to analyze problems, use evidence, and investigate solutions. The education requirements of careers across the economy are increasing and all students--regardless of whether they pursue science as a career--need greater proficiency in the…

The Relationship between Students' Perceptions of the Teaching and Learning Process and Academic Performance in Science of Seventh and Eighth Graders Enrolled in Seventh-Day Adventist Schools

ERIC Educational Resources Information Center

Burton, Larry D.; Kijai, Jimmy; Sargeant, Marcel A.

2005-01-01

This study investigated student perceptions of the 7th and 8th grade Adventist science education program and their relationship to achievement in science as defined by performance on the Iowa Test of Basic Skills. Findings revealed that students held generally poor perceptions of science education. Hierarchical regression analysis revealed 8…

Under-represented students' engagement in secondary science learning: A non-equivalent control group design

NASA Astrophysics Data System (ADS)

Vann-Hamilton, Joy J.

Problem. A significant segment of the U.S. population, under-represented students, is under-engaged or disengaged in secondary science education. International and national assessments and various research studies illuminate the problem and/or the disparity between students' aspirations in science and the means they have to achieve them. To improve engagement and address inequities among these students, more contemporary and/or inclusive pedagogy is recommended. More specifically, multicultural science education has been suggested as a potential strategy for increased equity so that all learners have access to and are readily engaged in quality science education. While multicultural science education emphasizes the integration of students' backgrounds and experiences with science learning , multimedia has been suggested as a way to integrate the fundamentals of multicultural education into learning for increased engagement. In addition, individual characteristics such as race, sex, academic track and grades were considered. Therefore, this study examined the impact of multicultural science education, multimedia, and individual characteristics on under-represented students' engagement in secondary science. Method. The Under-represented Students Engagement in Science Survey (USESS), an adaptation of the High School Survey of Student Engagement, was used with 76 high-school participants. The USESS was used to collect pretest and posttest data concerning their types and levels of student engagement. Levels of engagement were measured with Strongly Agree ranked as 5, down to Strongly Disagree ranked at 1. Participants provided this feedback prior to and after having interacted with either the multicultural or the non-multicultural version of the multimedia science curriculum. Descriptive statistics for the study's participants and the survey items, as well as Cronbach's alpha coefficient for internal consistency reliability with respect to the survey subscales, were conducted. The reliability results prompted exploratory factory analyses, which resulted in two of the three subscale factors, cognitive and behavioral, being retained. One-within one-between subjects ANOVAs, independent samples t-test, and multiple linear regressions were also used to examine the impact of a multicultural science education, multimedia, and individual characteristics on students' engagement in science learning. Results. There were main effects found within subjects on posttest scores for the cognitive and behavioral subscales of student engagement. Both groups, using their respective versions of the multimedia science curriculum, reported increased engagement in science learning. There was also a statistical difference found for the experimental group at posttest on the measure of "online science was more interesting than school science." All five items unique to the posttest related to the multimedia variable were found to be significant predictors of cognitive and/or behavioral engagement. Conclusions. Engagement in science learning increased for both groups of participants; this finding is aligned with other significant research findings that more embracive and relevant pedagogies can potentially benefit all students. The significant difference found for the experimental group in relation to the multimedia usage was moderate and also may have reflected positive responses to other questions about the use of technology in science learning. As all five measures of multimedia usage were found to be significant predictors of student engagement in science learning, the indications were that: (a) technical difficulties did not impede engagement; (b) participants were better able to understand and visualize the physics concepts as they were presented in a variety of ways; (c) participants' abilities to use computers supported engagement; (d) participants in both groups found the online science curriculum more interesting compared to school science learning; and (e) the ability to immediately see the results of their work increased engagement in science learning.

Making Science Homework Work: The Perspectives of Exemplary African American Science Teachers

ERIC Educational Resources Information Center

Xu, Jianzhong; Coats, Linda T.; Davidson, Mary L.

2012-01-01

Background/Context: Despite the best intentions to close the achievement gap, the underachievement of African American students in science is a persistent problem. It is surprising to note, however, that research on science education has often failed to consider students' cultural diversity as it relates to science education. On the few occasions…

Student-Centered Learning in an Earth Science, Preservice, Teacher-Education Course

ERIC Educational Resources Information Center

Avard, Margaret

2009-01-01

In an effort to get elementary teachers to teach more science in the classroom, a required preservice science education course was designed to promote the use of hands-on teaching techniques. This paper describes course content and activities for an innovative, student-centered, Earth science class. However, any science-content course could be…

The Pedagogy of Argumentation in Science Education: Science Teachers' Instructional Practices

ERIC Educational Resources Information Center

Özdem Yilmaz, Yasemin; Cakiroglu, Jale; Ertepinar, Hamide; Erduran, Sibel

2017-01-01

Argumentation has been a prominent concern in science education research and a common goal in science curriculum in many countries over the past decade. With reference to this goal, policy documents burden responsibilities on science teachers, such as involving students in dialogues and being guides in students' spoken or written argumentation.…

Bangladeshi Science Teachers' Perspectives of Scientific Literacy and Teaching Practices

ERIC Educational Resources Information Center

Sarkar, Mahbub; Corrigan, Deborah

2014-01-01

In line with a current global trend, junior secondary science education in Bangladesh aims to provide science education for all students to enable them to use their science learning in everyday life. This aim is consistent with the call for scientific literacy, which argues for engaging students with science in everyday life. This paper…

Emerging identities: A proposed model for an interactive science curriculum for First Nations students

NASA Astrophysics Data System (ADS)

Sable, Trudy

Mi'kmaw students face a complexity of personal, cultural, and social conditions within contemporary educational systems that affect their continued participation in the educational process offered within Atlantic Canada. Despite a variety of approaches developed by educators to address the high drop out rate and lack of interest in science, the statistics remain largely unchanged. Aboriginal educators are calling for a "new story" in education that better meets the needs of Aboriginal students. This study attempts to identify the conditions and contexts necessary to bridge the gap that currently exists for Aboriginal students in science studies. The research investigates the basic relationship between learning in general and the meaning-making processes engaged in by students of a Grade 7/8 class within a Mi'kmaw reserve school. It leads to a proposal for an alternative pedagogy, or a new narrative, for teaching science to Aboriginal students and the foundations for a culturally interactive science curriculum. For educators to understand the complexity of issues affecting Mi'kmaw student achievement in science requires a theoretical framework that allows the students' lived experience to emerge. Toward this end, the research includes both phenomenological and ethnographic approaches to understanding the lived experiences and cultural narratives based on interviews with the students, a field trip within the community, and a trial chemistry lesson. I examined how these students perceive themselves in different contexts and how their sense of identity establishes the meaningfulness of particular educational content. I also assessed how person, community/cultural and social contexts affect the students' learning. Part of creating this new narrative requires recognizing knowledge, including science, as a cultural product Taking this cultural view of scientific knowledge allows us to view learning as a process of identity formation and culture as a system of symbols including language itself This identity is based on personal, cultural, historical and social factors that come to bear on each student's definition of who they are and what knowledge is pertinent to survival and well being. Five fundamental themes emerged from the interviews and field trips---fragile ontologies, multiple layers of identity (personal, cultural, pan-tribal, and societal), border crossings, the continuing and emerging aspects of culture, and beyond borders to a spiritual narrative---and became the foundation for a culturally interactive science education model of learning. The model assists educators through a visualization of layers of identity, porous borders and seeming paradoxes, and "narrative unity" beyond boundaries---all of which affect the learning of science. The content of a culturally interactive curriculum is drawn from the cultural heritage of the students, giving them an historical context with which to identify. Working with Mi'kmaw language and notational representation is shown to assist educators in cultural border crossing and creating cultural continuity for the students. Taken into the classroom, this interactive paradigm could be adapted to pedagogical methods as "speaking together" times, in which students explore the processes of doing science while appreciating their own cultural traditions. In so doing, educators can come to know the larger narrative that gives shape to student's identities and ways of relating to the world. Then it becomes possible for educators to recognize the boundaries that obstruct or open a path to meaningful learning experiences.

Groundwater in Science Education

ERIC Educational Resources Information Center

Dickerson, Daniel L.; Penick, John E.; Dawkins, Karen R.; Van Sickle, Meta

2007-01-01

Although clean, potable groundwater constitutes one of our most valuable resources, few students or science educators hold complete and appropriate understandings regarding the concept. Recent studies that focus on secondary students' and preservice science teachers' understandings of groundwater found little difference between the groups'…

News Conference: Serbia hosts teachers' seminar Resources: Teachers TV website closes for business Festival: Science takes to the stage in Denmark Research: How noise affects learning in secondary schools CERN: CERN visit inspires new teaching ideas Education: PLS aims to improve perception of science for school students Conference: Scientix conference discusses challenges in science education

NASA Astrophysics Data System (ADS)

2011-07-01

Conference: Serbia hosts teachers' seminar Resources: Teachers TV website closes for business Festival: Science takes to the stage in Denmark Research: How noise affects learning in secondary schools CERN: CERN visit inspires new teaching ideas Education: PLS aims to improve perception of science for school students Conference: Scientix conference discusses challenges in science education

Cultivation of science identity through authentic science in an urban high school classroom

NASA Astrophysics Data System (ADS)

Chapman, Angela; Feldman, Allan

2017-06-01

This study examined how a contextually based authentic science experience affected the science identities of urban high school students who have been marginalized during their K-12 science education. We examined students' perceptions of the intervention as an authentic science experience, how the experience influenced their science identity, as well as their perceptions about who can do science. We found that the students believed the experience to be one of authentic science, that their science identity was positively influenced by participation in the experience, and that they demonstrated a shift in perceptions from stereotypical to more diverse views of scientists. Implications for science education are discussed.

Analysis of the Problems Encountered in Education of Teachers and Solution Recommendations in Accordance with the Opinions of Faculty of Education Students

ERIC Educational Resources Information Center

Sahan, Gülsün

2016-01-01

The purpose of this study is to put forth the problems encountered in education of teachers and solution recommendations in accordance with the opinions of faculty of education students. Within this framework, the opinions of 182 first grade students from the departments of classroom, social sciences, science and mathematics teaching at Bartin…

The Gender Differences: Hispanic Females and Males Majoring in Science or Engineering

NASA Astrophysics Data System (ADS)

Brown, Susan Wightman

Documented by national statistics, female Hispanic students are not eagerly rushing to major in science or engineering. Using Seidman's in-depth interviewing method, 22 Hispanic students, 12 female and 10 male, majoring in science or engineering were interviewed. Besides the themes that emerged with all 22 Hispanic students, there were definite differences between the female and male Hispanic students: role and ethnic identity confusion, greater college preparation, mentoring needed, and the increased participation in enriched additional education programs by the female Hispanic students. Listening to these stories from successful female Hispanic students majoring in science and engineering, educators can make changes in our school learning environments that will encourage and enable more female Hispanic students to choose science or engineering careers.

Inspiring the Next Generation of Innovators: Students, Parents and Educators Speak up about Science Education

ERIC Educational Resources Information Center

Farris-Berg, Kim

2008-01-01

This report presents the findings from Project Tomorrow's 2007 Speak Up Survey, informing international discussions about how to improve science learning in the 21st century through an exploration of student, teacher, parent, and school leader attitudes about science education. Project Tomorrow administered its survey in all 50 United States, the…

And Still I See No Changes: Enduring Views of Students of Color in Science and Mathematics Education Policy Reports

ERIC Educational Resources Information Center

Basile, Vincent; Lopez, Enrique

2015-01-01

Federal education policy reports in science and mathematics education have treated Students of Color consistently over the past two decades, addressing the underrepresentation of minorities in science, technology, engineering, and mathematics (STEM) fields with little regard to actual issues of race and ethnicity. We examine how 17 federal…

Ideal Pictures and Actual Perspectives of Junior Secondary School Science: Comparisons Drawn from Australian Students in an Astronomy Education Programme

ERIC Educational Resources Information Center

Danaia, L.; McKinnon, D. H.; Fitzgerald, M.

2017-01-01

Background: This research investigates the impact of a junior secondary astronomy education programme undertaken in four Australian educational jurisdictions. Purpose: Junior secondary students' perceptions of the science they experience at School are examined both before, during and after their engagement with a science programme targeting…

Cool Science: Year 2 of Using Children's Artwork about Climate Change to Engage Riders on Mass Transit

NASA Astrophysics Data System (ADS)

Lustick, D. S.; Lohmeier, J.; Chen, R. F.

2014-12-01

A team of educators and scientists from the University of Massachusetts Lowell and the University of Massachusetts Boston will report on the second year of an informal science learning research project using mass transit spaces in Lowell, MA. Cool Science (CS) conducts a statewide art competition for K-12 students in the fall challenging them to express climate science understanding through the visual arts. An inter-disciplinary panel of judges evaluates entries and identifies the top 24 works of art. The best six student works of art are then put on public display throughout the spring on the Lowell Regional Transit Authority (LRTA). Displaying student artwork in Out of Home Multi-Media (OHMM) such as bus placards and posters is intended to engage riders with opportunities to learn informally. CS aims to promote and evaluate learning about climate change science among the general public and k-12 students/teachers. The goals of CS are: 1) Engage teachers, students, and parents in a climate change science communication competition. 2) Display the winning 6 artworks from K-12 students throughout the LRTA. 3) Assess the impact of Cool Science on the teaching and learning of climate science in K-12 formal education. 4) Assess the impact of Cool Science artwork on attitudes, awareness, and understanding of climate change among adult bus riders. A naturalistic inquiry employing a mixed methodology approach best describes our research design. The evaluation focuses on providing feedback regarding the potential learning outcomes for the K-12 students who create the media for the project and the general riding public who engage with the student artwork. To identify possible outcomes, data was collected in the several forms: survey, interviews, and online analytics. We see an urgent need to improve both the public's engagement with climate change science and to the profile of climate change science in formal education settings. The Cool Science (CS) project is an opportunity to bring formal and informal science learning settings together for mutual engagement in the science of climate change. The research that will be presented should be of interest to both informal and formal science educators, art and science educators, and environmental education advocates.

A Case of Fragmented High School Earth and Space Science Education in the Great Plains: Tracing Teacher Certification Policy to Students' Access

ERIC Educational Resources Information Center

Lewis, Elizabeth; Lu, Jia

2017-01-01

Although U.S. high school students' access to Earth and space science (ESS) varies widely from state to state, nationally, ESS content is the most neglected area of science education and scientific literacy. States have been considering whether they will formally adopt, or less formally adapt, the new national science education standards, the Next…

Promoting Science in Secondary School Education.

PubMed

Chiovitti, Anthony; Duncan, Jacinta C; Jabbar, Abdul

2017-06-01

Engaging secondary school students with science education is crucial for a society that demands a high level of scientific literacy in order to deal with the economic and social challenges of the 21st century. Here we present how parasitology could be used to engage and promote science in secondary school students under the auspice of a 'Specialist Centre' model for science education. Copyright © 2017 Elsevier Ltd. All rights reserved.

"But at school … I became a bit shy": Korean immigrant adolescents' discursive participation in science classrooms

NASA Astrophysics Data System (ADS)

Ryu, Minjung

2013-09-01

In reform-based science curricula, students' discursive participation is highly encouraged as a means of science learning as well as a goal of science education. However, Asian immigrant students are perceived to be quiet and passive in classroom discursive situations, and this reticence implies that they may face challenges in discourse-rich science classroom learning environments. Given this potentially conflicting situation, the present study aims to understand how and why Asian immigrant students participate in science classroom discourse. Findings from interviews with seven Korean immigrant adolescents illustrate that they are indeed hesitant to speak up in classrooms. Drawing upon cultural historical perspectives on identity and agency, this study shows how immigrant experiences shaped the participants' othered identity and influenced their science classroom participation, as well as how they negotiated their identities and situations to participate in science classroom and peer communities. I will discuss implications of this study for science education research and science teacher education to support classroom participation of immigrant students.

RE-NUMERATE: A Workshop to Restore Essential Numerical Skills and Thinking via Astronomy Education

NASA Astrophysics Data System (ADS)

McCarthy, D.; Follette, K.

2013-04-01

The quality of science teaching for all ages is degraded by our students' gross lack of skills in elementary arithmetic and their unwillingness to think, and to express themselves, numerically. Out of frustration educators, and science communicators, often choose to avoid these problems, thereby reinforcing the belief that math is only needed in “math class” and preventing students from maturing into capable, well informed citizens. In this sense we teach students a pseudo science, not its real nature, beauty, and value. This workshop encourages and equips educators to immerse students in numerical thinking throughout a science course. The workshop begins by identifying common deficiencies in skills and attitudes among non-science collegians (freshman-senior) enrolled in General Education astronomy courses. The bulk of the workshop engages participants in well-tested techniques (e.g., presentation methods, curriculum, activities, mentoring approaches, etc.) for improving students' arithmetic skills, increasing their confidence, and improving their abilities in numerical expression. These techniques are grounded in 25+ years of experience in college classrooms and pre-college informal education. They are suited for use in classrooms (K-12 and college), informal venues, and science communication in general and could be applied across the standard school curriculum.

Science educators' perceptions of problems facing science education: A report of five surveys

NASA Astrophysics Data System (ADS)

Gallagher, James Joseph; Yager, Robert E.

Five groups of science educators representing faculty at graduate institutions, graduate students, teachers, supervisors, and leadership conferees were surveyed concerning their perceptions of current problems facing science education. A total of 144 participants provided an average of 4.7 responses. The responses were tabulated using an emergent set of categories that resulted in six major groupings, i.e. conceptual, organizational, teacher; related, student-related, university, and societal. The category with the most problems identified was in the area of conceptual problems. University related problems and organizational problems were the next two most frequently mentioned categories for problems. Specific problems in all categories most often cited include the following:1confusion and uncertainty in goals and objectives;2lack of vision and leadership in schools and universities;3absence of a theoretical base for science education;4poor quality teacher education programs;5inappropriate avenues for continuing education of teachers; limited dialogue between researchers and practitioners; declining enrollments; poor quality teaching and counseling; insufficient programs in science for the wide spectrum of students; and public and parental apathy towards science.

The relationship of parental influence on student career choice of biology and non-biology majors enrolled in a freshman biology course

NASA Astrophysics Data System (ADS)

Sowell, Mitzie Leigh

Recent declines in science literacy and inadequate numbers of individuals entering science careers has heightened the importance of determining why students major in science or do not major in science and then choose a science-related career. Therefore, the purpose of this study was to examine the relationship between parental influences and student career choices of both males and females majoring and not majoring in science. This study specifically examined the constructs of parental occupation, parental involvement, and parental education levels. Aspects indicated by the participants as being influencers were also examined. In addition, differences between males and females were examined. A total of 282 students participated in the study; 122 were science majors and 160 were non-science majors. The data was collected through the use of a student information survey and the Modified Fennema-Sherman Attitude Scale. The findings suggest that students indicated the desire to help others, peers, salary, and skills as influencing their career choice. In regard to the various parental influences, mother's occupation was the only construct found as a statistically significant influencer on a student's decision to major in science. The results of this study can help educators, administrators, and policy makers understand what influences students to pursue science-related careers and possibly increase the number of students entering science-related careers. The results of the study specifically provide information that may prove useful to administrators and educators in the health science fields, particularly nursing fields. The findings provide insight into why students may choose to become nurses.

The development of a science process assessment for fourth-grade students

NASA Astrophysics Data System (ADS)

Smith, Kathleen A.; Welliver, Paul W.

In this study, a multiple-choice test entitled the Science Process Assessment was developed to measure the science process skills of students in grade four. Based on the Recommended Science Competency Continuum for Grades K to 6 for Pennsylvania Schools, this instrument measured the skills of (1) observing, (2) classifying, (3) inferring, (4) predicting, (5) measuring, (6) communicating, (7) using space/time relations, (8) defining operationally, (9) formulating hypotheses, (10) experimenting, (11) recognizing variables, (12) interpreting data, and (13) formulating models. To prepare the instrument, classroom teachers and science educators were invited to participate in two science education workshops designed to develop an item bank of test questions applicable to measuring process skill learning. Participants formed writing teams and generated 65 test items representing the 13 process skills. After a comprehensive group critique of each item, 61 items were identified for inclusion into the Science Process Assessment item bank. To establish content validity, the item bank was submitted to a select panel of science educators for the purpose of judging item acceptability. This analysis yielded 55 acceptable test items and produced the Science Process Assessment, Pilot 1. Pilot 1 was administered to 184 fourth-grade students. Students were given a copy of the test booklet; teachers read each test aloud to the students. Upon completion of this first administration, data from the item analysis yielded a reliability coefficient of 0.73. Subsequently, 40 test items were identified for the Science Process Assessment, Pilot 2. Using the test-retest method, the Science Process Assessment, Pilot 2 (Test 1 and Test 2) was administered to 113 fourth-grade students. Reliability coefficients of 0.80 and 0.82, respectively, were ascertained. The correlation between Test 1 and Test 2 was 0.77. The results of this study indicate that (1) the Science Process Assessment, Pilot 2, is a valid and reliable instrument applicable to measuring the science process skills of students in grade four, (2) using educational workshops as a means of developing item banks of test questions is viable and productive in the test development process, and (3) involving classroom teachers and science educators in the test development process is educationally efficient and effective.

The profile of problem-solving ability of students of distance education in science learning

NASA Astrophysics Data System (ADS)

Widiasih; Permanasari, A.; Riandi; Damayanti, T.

2018-05-01

This study aims to analyze the students' problem-solving ability in science learning and lesson-planning ability. The method used is descriptive-quantitative. The subjects of the study were undergraduate students of Distance Higher Education located in Serang, majoring in Primary Teacher Education in-service training. Samples were taken thoroughly from 2 groups taking the course of Science Learning in Primary School in the first term of 2017, amounted to 39 students. The technique of data collection used is essay test of problem solving from case study done at the beginning of lecture in February 2017. The results of this research can be concluded that In-service Training of Primary School Teacher Education Program are categorized as quite capable (score 66) in solving science learning problem and planning science lesson. Therefore, efforts need to be done to improve the ability of students in problem solving, for instance through online tutorials with the basis of interactive discussions.

Developing Mathematical Concepts through Orientation and Mobility

ERIC Educational Resources Information Center

Smith, Derrick W.

2006-01-01

The National Council for Teachers of Mathematics (NCTM; 2000) encourages students to experience mathematics in multiple contexts, including science, history, physical education, business sciences, and agricultural sciences. All educators, including professionals such as orientation and mobility specialists who work with students who are visually…

Science school and culture school: improving the efficiency of high school science teaching in a system of mass science education.

PubMed

Charlton, Bruce G

2006-01-01

Educational expansion in western countries has been achieved mainly by adding years to full-time education; however, this process has probably reduced efficiency. Sooner or later, efficiency must improve, with a greater educational attainment per year. Future societies will probably wish more people to study science throughout high school (aged c. 11-19 years) and the first college degree. 'Science' may be defined as any abstract, systematic and research-based discipline: including mathematics, statistics and the natural sciences, economics, music theory, linguistics, and the conceptual or quantitative social sciences. Since formal teaching is usually necessary to learn science, science education should be regarded as the core function of high schools. One standard way to improve efficiency is the 'division of labour', with increased specialization of function. Modern schools are already specialized: teachers are specialized according to age-group taught, subject matter expertise, and administrative responsibilities. School students are stratified by age and academic aptitude. I propose a further institutional division of school function between science education, and cultural education (including education in arts, sports, ethics, social interaction and good citizenship). Existing schools might split into 'science school' and 'culture school', reflected in distinct buildings and zones, separate administrative structures, and the recruitment of differently-specialized teaching personnel. Science school would be distinguished by its focus on education in disciplines which promote abstract systematic cognition. All students would spend some part of each day (how much would depend on their aptitude and motivation) in the 'science school'; experiencing a traditional-style, didactic, disciplined and rigorous academic education. The remainder of the students' time at school would be spent in the cultural division, which would focus on broader aspects, and aim to generate a more rounded and social individual. For this to happen depends upon a recognition that science is relatively difficult to teach, requiring non-spontaneous and un-natural cognitive processes from students. Furthermore, it is much easier to learn science when young--if science is missed at school, it can be difficult or impossible to make up the ground later. Modern schools currently try to do too many things, and end-up doing none very well: the one big thing all schools should do for all students is to teach them science. For this to happen, schools need to specialize in their core function.

A Science Summer Camp as an Effective Way to Recruit High School Students to Major in the Physical Sciences and Science Education

ERIC Educational Resources Information Center

Bischoff, Paul J.; Castendyk, Devin; Gallagher, Hugh; Schaumloffel, John; Labroo, Sunil

2008-01-01

Now in its fifth year, PR[superscript 2]EPS is a National Science Foundation funded initiative designed to recruit high school students to attend college majoring in the physical sciences, including engineering and secondary science education, and to help ensure their retention within these programs until graduation. A central feature of the…

Salvaging Science Literacy

ERIC Educational Resources Information Center

Feinstein, Noah

2011-01-01

There is little evidence that the prevailing strategies of science education have an impact on the use and interpretation of science in daily life. Most science educators and science education researchers nonetheless believe that science education is intrinsically useful for students who do not go on to scientific or technical careers. This essay…

General Education and ePortfolios: Syllabi and the Role of Faculty

ERIC Educational Resources Information Center

Appling, Jeffrey; Dippre, Andrew; Gregory, Ellen; Hembree, Megan; Kooi, Kaitlyn; Pazzo, Kyle; Carson, Sarah; Shawen, Avery

2015-01-01

A study of faculty views about General Education requirements, paired with a review of faculty syllabi, revealed concerns about communication of General Education goals to students. Syllabi reviewed were those for courses meeting the Natural Sciences General Education requirement. At our institution, students demonstrate Natural Science competency…

Determination of Science Teachers' Opinions about Outdoor Education

ERIC Educational Resources Information Center

Kubat, Ulas

2017-01-01

The aim of this research is to discover what science teachers' opinions about outdoor education learning environments are. Outdoor education learning environments contribute to problem-solving, critical and creative thinking skills of students. For this reason, outdoor education learning environments are very important for students to learn by…

Fostering Scientific Literacy and Critical Thinking in Elementary Science Education

ERIC Educational Resources Information Center

Vieira, Rui Marques; Tenreiro-Vieira, Celina

2016-01-01

Scientific literacy (SL) and critical thinking (CT) are key components of science education aiming to prepare students to think and to function as responsible citizens in a world increasingly affected by science and technology (S&T). Therefore, students should be given opportunities in their science classes to be engaged in learning…

The Self-Efficacy of Preservice Elementary Teachers in Kuwaiti Science Programs

ERIC Educational Resources Information Center

Ebrahim, Ali H.

2012-01-01

This study examined educational factors that positively influenced the confidence of students training to be elementary science educators (self efficacy). Specifically, it compared the impacts of a science method course and a practicum teaching course on Kuwait University students. Using a pre/post design, The Science Teaching Efficacy Belief…

An examination of the association between demographic and educational factors and African American achievement in science

NASA Astrophysics Data System (ADS)

Cottledge, Michael Christopher

Objective of the Study: The objective of this research study was to investigate whether an association exists between teacher demographic factors (years of teaching experience and gender), 2 educational factors (certification type and certification pathway) and the percent passing rate of tenth grade African American male students on the 2010 science TAKS. Answers to the following questions were sought: 1. Is there an association between teacher demographic factors and the percent passing rate of their tenth grade African American male students on the 2010 science TAKS? 2. Is there an association between teacher educational factors and the percent passing rate of their tenth grade African American male students on the 2010 science TAKS? 3. Is there an association between teacher demographic factors, educational factors and the percent passing rate of their tenth grade African American male students on the 2010 science TAKS? Status of the Question: According to the Bureau of Labor Statistics (BLS), science and engineering jobs in the U.S. have increased steadily over recent years and by the year 2016 the number of STEM (Science, Technology, Engineering and Math) jobs will have grown by more than 21 percent. This increase in science and engineering jobs will double the growth rate of all other workforce sectors combined. The BLS also reports that qualified minority applicants needed to fill these positions will be few and far between. African Americans, Latinos, and other minorities constitute 24 percent of the U.S. population but only 13 percent of college graduates and just 10 percent of people with college degrees who work in science and engineering (Education Trust, 2009). Drawing on the above information, I proposed the following hypotheses to the research questions: H01: There will be no significant statistical association between the demographic factors teacher gender and years of teaching experience and the percent passing rate of their tenth grade African American male students on the 2010 science TAKS. H02: There will be no significant statistical association between the educational factors teacher certification type (composite or content specific) and teacher certification pathway and the percent passing rate of their tenth grade African American male students on the 2010 science TAKS. H03: There will be no significant statistical association between a teachers' demographic factors, educational factors and the percent passing rate of their tenth grade African American male students on the 2010 science TAKS. The researcher employed the assistance of the human resource departments of participating districts to generate a demographic report identifying the sex, years of experience, certification types and pathways of the teachers of record for African American male students who took the 10th grade Science TAKS during the 2009-2010 school year. Data ascertained from the demographic report was entered in the Statistical Package for the Social Sciences Software (SPSS). A linear regression statistical analysis was used to establish the following: 1). the degree of association between demographic factors and the percent passing rate of their African American male students on the 10th grade science TAKS , 2) the degree of association between educational factors and the percent passing rate of their African American male students on the 10th grade science TAKS, 3) the degree of association between demographic and educational factors and the percent passing rate of their African American male students on the 10th grade science TAKS Conclusion: Constantine et al (2009) concluded that although individual teachers appear to have an effect on student achievement, their study could not identify what about a teacher affects student achievement. Similar to Constatine, the researcher did not find any association between the demographic and educational factors of teachers and the science academic achievement of African American males. (Abstract shortened by UMI.)

Actitudes y practicas educativas hacia la inclusion de estudiantes con impedimentos en la ensenanza de Ciencia

NASA Astrophysics Data System (ADS)

Vargas Rodriguez, Mayra

This research is about the attitudes and educational practices towards inclusion of students with disabilities in science classroom. Four research questions were raised: (1) What are the attitudes of science teachers about the inclusion of students with disabilities?, (2) What is the relationship between attitudes and teachers demographics characteristics?, (3) What are the factors that influence the attitudes of science teachers? and (4) What does the Science teachers do in their educational practices to teach students with disabilities? A mixed design of two phases was performed to answer this question. In the first phase a questionnaire was submit to 79 Science teachers from the middle and high school level. This questionnaire with the title Attitudes and educational practices towards inclusion of students with disabilities in Science teaching was developed by the researcher. In the second phase a focus group was conducted with Science and Special Education teachers. Also, two structured interviews by telephone were conducted. The findings indicate that the attitudes of science teachers who participated in the first phase of this research seems to be neutral. However, in their responses to the interview or focus group the attitudes were perceived negative. This attitudes are influences by a number of factors that hinder the process of inclusion. Using a nonparametric test with a chi-square test, it was determined that the number of students in a classroom is one of the factors that have a significant relationship with attitudes. The modifications that Science teachers do in their educational practices these will depend on the discapacities. But usually the modification will be in the evaluation of the students. Using assessments as a technique. Also, individualized instruction and peers are educational practices that highlight.

Restoration Science in New York Harbor: It takes a (large, diverse and engaged) village

NASA Astrophysics Data System (ADS)

Newton, R.; Birney, L.; Janis, S.; Groome, M.; Palmer, M.; Bone, E.; O'Neil, J. M.; Hill, J.; Dennison, W.; Malinowski, P.; Kohne, L.; Molina, M.; Moore, G.; Woods, N.

2015-12-01

The Curriculum + Community Enterprise for Restoration Science (CCE-RS) facilitates partnerships between scientists and middle school educators on ecological restoration and environmental monitoring projects. The educational model is designed to wrap around the student, including classroom instruction, field science, after-school programs and engagement with the student's community. Its pillars include: a teacher training fellowship at Pace University, student curriculum, a digital platform, afterschool and summer mentoring, and community exhibits. The digital platform includes a tablet app tailored to the project's field protocols and linked to a database shared across schools and partnering institutions. Through the digital platform, data is integrated into a single citizen-science monitoring project, teachers share curriculum and best practices, and students link directly to their peers at other schools. Curriculum development has been collaborative between scientists, science education specialists, and secondary school teachers. The CCE-RS is rooted in project-based learning: the New York Harbor School has engaged high school students in environmental monitoring and oyster restoration in the Harbor for about the last decade. The science partners (U. of Maryland and Columbia) have been working with students and other citizen scientists in outdoor science over about the last decade. Local partners in outside-the-classroom education include the New York Academy of Sciences, The River Project, which will provide field education services, and Good Shepherd Services, which provides after-school programming in schools serving primarily poor families. Scientists on the project engage directly with teachers and informal educators in curriculum development and citizen-science outreach. We present the lessons learned from our first cohort of Fellows, the pedagogical model, and the digital platform, which is extensible to other ecological restoration settings.

Effects of Computer-Based Simulations Teaching Approach on Students' Achievement in the Learning of Chemistry among Secondary School Students in Nakuru Sub County, Kenya

ERIC Educational Resources Information Center

Mihindo, W. Jane; Wachanga, S.W.; Anditi, Z. O.

2017-01-01

Science education should help develop student's interest in science as today's society depends largely on output of science and technology. Chemistry is one of the branches of science. Chemistry education helps to expand the pupil's knowledge of the universe and of his/her position in it. It helps in the appreciation and enjoyment of nature and…

What is `Agency'? Perspectives in Science Education Research

NASA Astrophysics Data System (ADS)

Arnold, Jenny; Clarke, David John

2014-03-01

The contemporary interest in researching student agency in science education reflects concerns about the relevance of schooling and a shift in science education towards understanding learning in science as a complex social activity. The purpose of this article is to identify problems confronting the science education community in the development of this new research agenda and to argue that there is a need for research in science education that attends to agency as a social practice. Despite increasing interest in student agency in educational research, the term 'agency' has lacked explicit operationalisation and, across the varied approaches, such as critical ethnography, ethnographies of communication, discourse analysis and symbolic interactionism, there has been a lack of coherence in its research usage. There has also been argument concerning the validity of the use of the term 'agency' in science education research. This article attempts to structure the variety of definitions of 'student agency' in science education research, identifies problems in the research related to assigning intentionality to research participants and argues that agency is a kind of discursive practice. The article also draws attention to the need for researchers to be explicit in the assumptions they rely upon in their interpretations of social worlds. Drawing upon the discursive turn in the social sciences, a definition of agency is provided, that accommodates the discursive practices of both individuals and the various functional social groups from whose activities classroom practice is constituted. The article contributes to building a focused research agenda concerned with understanding and promoting student agency in science.

Diving Deep: A Comparative Study of Educator Undergraduate and Graduate Backgrounds and Their Effect on Student Understanding of Engineering and Engineering Careers, Utilizing an Underwater Robotics Program

NASA Astrophysics Data System (ADS)

Scribner, J. Adam

Numerous studies have demonstrated that educators having degrees in their subjects significantly enhances student achievement, particularly in secondary mathematics and science (Chaney, 1995; Goe, 2007; Rowan, Chiang, & Miller, 1997; Wenglinsky, 2000). Yet, science teachers in states that adopt the Next Generation Science Standards will be facilitating classroom engineering activities despite the fact that few have backgrounds in engineering. This quantitative study analyzed ex-post facto WaterBotics (an innovative underwater robotics curriculum for middle and high school students) data to determine if educators having backgrounds in engineering (i.e., undergraduate and graduate degrees in engineering) positively affected student learning on two engineering outcomes: 1) the engineering design process, and 2) understanding of careers in engineering (who engineers are and what engineers do). The results indicated that educators having backgrounds in engineering did not significantly affect student understanding of the engineering design process or careers in engineering when compared to educators having backgrounds in science, mathematics, technology education, or other disciplines. There were, however, statistically significant differences between the groups of educators. Students of educators with backgrounds in technology education had the highest mean score on assessments pertaining to the engineering design process while students of educators with disciplines outside of STEM had the highest mean scores on instruments that assess for student understanding of careers in engineering. This might be due to the fact that educators who lack degrees in engineering but who teach engineering do a better job of "sticking to the script" of engineering curricula.

The Influence of Education Major: How Diverse Preservice Teachers View Pseudoscience Topics

NASA Astrophysics Data System (ADS)

Losh, Susan Carol; Nzekwe, Brandon

2011-10-01

Pseudoscience beliefs (e.g., astrology, ghosts or UFOs) are rife in American society. Most research examines creation/evolution among liberal arts majors, general public adults, or, infrequently, middle or high school science teachers. Thus, research truncates the range of ersatz science thinking and the samples it studies. We examined diverse beliefs, e.g., extraterrestrials, magic, Biblical creation, and evolution, among 540 female and 123 male future teachers, including 325 elementary education majors. We study how these cognitions related to education major and, because popular media often present pseudoscience "information", student media use. Future elementary educators most often rejected evolution and endorsed "creationism" or Intelligent Design. Education majors held similar beliefs about astrology, UFO landings, or magic. Compared with other education students, elementary education majors watched less news or science television and read fewer popular science magazines. However, religious and media variables explained more variation in creation/evolution beliefs than education major. We discuss implications of our findings for elementary school science education and how teacher educators may be able to affect pseudoscience beliefs among their elementary education students.

The Effect of Scientific Process Skills Education on Students' Scientific Creativity, Science Attitudes and Academic Achievements

ERIC Educational Resources Information Center

Aktamis, Hilal; Ergin, Omer

2008-01-01

The aim of this study is to investigate the effects of teaching scientific process skills education to students to promote their scientific creativity, attitudes towards science, and achievements in science. The research includes a pre-test post-test research model with a control group. The subjects of the research consist of 40 students reading…

Effects of Inquiry-Based Instruction on Science Achievement for Students with Disabilities: An Analysis of the Literature

ERIC Educational Resources Information Center

Rizzo, Karen L.; Taylor, Jonte C.

2016-01-01

In comparison to the past, more students with disabilities are being included in the general education classroom for science instruction. Though inquiry-based instruction has not shown to be an effective practice for students with disabilities, it is vastly becoming the dominant practice in science education. The purpose of this review is to…

The Wilkins Institute for Science Education: A science-centered magnet school

NASA Astrophysics Data System (ADS)

Wilkins, Gary Dean

The problem that this study addressed is that excellent science instruction is not consistently provided by traditional public schools. This study utilized a review of the literature, interviews, surveys, and focus groups. This study provides the basis for the proposed design of a school that can be the solution to the problem. Conducted in 1995, the Third International Mathematics and Science Study (TIMSS) showed that our efforts to improve U.S. education have had some successes, but overall have been ineffective in raising U.S. performance from a middle-of-the-pack position. At the end of secondary schooling, which in the U.S. is 12 th grade, U.S. performance was among the lowest in both science and math, including our most advanced students (National Center for Educational Statistics, 2001). For this research project I surveyed 412 students and 218 parents or guardians. I conducted interviews and focus groups with 10 participants who were science teachers or educators, and 10 participants who were scientists. The surveys presented 12 factors, believed to be valued as part of an excellent science education, which were security, social activities, sports, computers, reading and writing, hands-on equipment, industry support, and cafeteria. The survey participants rated each factor from most to least important. The focus groups and the interviews covered science education in general, as well as these same 12 topics. Students and parents agreed that qualified instructors is the item that is most important to provide quality science instruction. Students and parents disagreed most on the item reading and writing, which students ranked 9th, but parents ranked 2nd, a difference of 7 rankings. Considering only the item that was ranked number 1, students identified sports most often as most important, but parents disagreed and ranked this 8th, a difference of 7 ranks. After this dissertation is completed, it is my intent to benefit students with the implementation of the Wilkins Institute for Science Education (WISE), a model K--12 school dedicated to the field of science. The school will be named for my father, George Wilkins, who made outstanding contributions to the field of aircraft engineering.

A systematic review of peer teaching and learning in clinical education.

PubMed

Secomb, Jacinta

2008-03-01

The purpose of this review is to provide a framework for peer teaching and learning in the clinical education of undergraduate health science students in clinical practice settings and make clear the positive and negative aspects of this teaching and learning strategy. The practice of using peers incidentally or purposefully in the clinical education of apprentice or undergraduate health science students is a well-established tradition and commonly practiced, but lacks definition in its implementation. The author conducted a search of health science and educational electronic databases using the terms peer, clinical education and undergraduate. The set limitations were publications after 1980 (2005 inclusive), English language and research papers. Selection of studies occurred: based on participant, intervention, research method and learning outcomes, following a rigorous critical and quality appraisal with a purposefully developed tool. The results have been both tabled and collated in a narrative summary. Twelve articles met the inclusion criteria, representing five countries and four health science disciplines. This review reported mostly positive outcomes on the effectiveness of peer teaching and learning; it can increase student's confidence in clinical practice and improve learning in the psychomotor and cognitive domains. Negative aspects were also identified; these include poor student learning if personalities or learning styles are not compatible and students spending less individualized time with the clinical instructor. Peer teaching and learning is an effective educational intervention for health science students on clinical placements. Preclinical education of students congruent with the academic timetable increases student educational outcomes from peer teaching and learning. Strategies are required prior to clinical placement to accommodate incompatible students or poor student learning. The findings from this systematic review, although not statistically significant, do have pragmatic implications for clinical practice. It can increase clinical placement opportunities for undergraduate health students, assist clinical staff with workload pressures and increase clinician time with clients, while further developing students' knowledge, skills and attitudes.

Undergraduate research experiences support science career decisions and active learning.

PubMed

Lopatto, David

2007-01-01

The present study examined the reliability of student evaluations of summer undergraduate research experiences using the SURE (Survey of Undergraduate Research Experiences) and a follow-up survey disseminated 9 mo later. The survey further examines the hypothesis that undergraduate research enhances the educational experience of science undergraduates, attracts and retains talented students to careers in science, and acts as a pathway for minority students into science careers. Undergraduates participated in an online survey on the benefits of undergraduate research experiences. Participants indicated gains on 20 potential benefits and reported on career plans. Most of the participants began or continued to plan for postgraduate education in the sciences. A small group of students who discontinued their plans for postgraduate science education reported significantly lower gains than continuing students. Women and men reported similar levels of benefits and similar patterns of career plans. Undergraduate researchers from underrepresented groups reported higher learning gains than comparison students. The results replicated previously reported data from this survey. The follow-up survey indicated that students reported gains in independence, intrinsic motivation to learn, and active participation in courses taken after the summer undergraduate research experience.

Advance the Earth Science Education in China by Using New Technology

NASA Astrophysics Data System (ADS)

Qian, R.; Wang, X.; Sun, L.

2013-12-01

With the development of Chinese economy, science and technology, as well as the increasing demand of the persons with knowledge and experience in earth science and geological exploration, the higher education of earth science has been boosted in recent years. There are 2,000 to 3,000 students studying earth science every year and many of them will take part in scientific research and engineering technology work around the world after graduation, which increased the demand of educators, both in quantity and quality. However, the fact is that there is a huge gap between the demand and the current number of educators due to the explosion of students, which makes the reform of traditional education methods inevitable. There is great significance in doing research on the teaching methods catering to a large number of students. Some research contents and result based on the reform of education methods has been conducted. We integrate the teaching contents with the cutting-edge research projects and stress significance of earth science, which will greatly enhance the student's enthusiasm of it. Moreover. New technology will be applied to solve the problem that every teacher are responsible for 100~150 students in one courses. For instance, building the Internet platform where teachers and the students can discuss the courses contents, read the latest scientific articles. With the numerical simulation technology, the internal structure of the Earth, geological phenomena, characteristics of ore body, geophysical and hydrological fields, etc. can be simulated and the experiments and teaching practice can be demonstrated via video technology. It can also be used to design algorithm statistics and assessment and monitor teaching effect. Students are separated into small groups to take research training with their personal tutor at the beginning of the first semester, which will increase the opportunities for students to communicate with educators and solve the problem that the students are not able to receive sufficient guide from the educators. All these reforms above have been proved with good achievements.

PolarTREC-Teachers and Researchers Exploring and Collaborating: Science Education from the Poles to the World

NASA Astrophysics Data System (ADS)

Timm, K. M.; Warburton, J.; Owens, R.; Warnick, W. K.

2008-12-01

PolarTREC--Teachers and Researchers Exploring and Collaborating, a program of the Arctic Research Consortium of the U.S. (ARCUS), is a National Science Foundation (NSF)--funded International Polar Year (IPY) project in which K-12 educators participate in hands-on field experiences, working closely with IPY scientists as a pathway to improving science education. PolarTREC has developed a successful internet-based platform for teachers and researchers to interact and share their diverse experiences and expertise by creating interdisciplinary educational tools including online journals and forums, real-time Internet seminars, lesson plans, activities, audio, and other educational resources that address a broad range of scientific topics. These highly relevant, adaptable, and accessible resources are available to educators across the globe and have connected thousands of students and citizens to the excitement of polar science. By fostering the integration of research and education and infusing education with the thrill of discovery, PolarTREC will produce a legacy of long-term teacher-researcher collaborations and increased student knowledge of and interest in the polar regions well beyond the IPY time period. Educator and student feedback from preliminary evaluations has shown that PolarTREC's comprehensive program activities have many positive impacts on educators and their ability to teach science concepts and improve their teaching methods. Additionally, K-12 students polled in interest surveys showed significant changes in key areas including amount of time spent in school exploring research activities, importance of understanding science for future work, importance of understanding the polar regions as a person in today's world, as well as increased self-reported knowledge and interest in Science, Technology, Engineering, and Mathematics content areas. PolarTREC provides a tested approach and a clear route for researcher participation in the education community, facilitating increased educator, student, and community understanding of science and the polar regions during times of interrelated global change. For more information, visit the PolarTREC website.

More Than Just Chemistry: The Impact of a Collaborative Participant Structure on Student Perceptions of Science

NASA Astrophysics Data System (ADS)

Patchen, Terri; Smithenry, Dennis W.

2015-02-01

Researchers have theorized that integrating authentic science activities into classrooms will help students learn how working scientists collaboratively construct knowledge, but few empirical studies have examined students' experiences with these types of activities. Utilizing data from a comparative, mixed-methods study, we considered how integrating a complex, collaborative participant structure into a secondary school chemistry curriculum shapes students' perceptions of what constitutes "science." We found that the implementation of this participant structure expanded student perceptions of chemistry learning beyond the typical focus on science content knowledge to include the acquisition of collaboration skills. This support for the collaborative construction of knowledge, in addition to the appropriation of scientific content, establishes the conditions for what science educators and scientists say they want: students who can work together to solve science problems. Radical shifts towards such collaborative participant structures are necessary if we are to modify student perceptions of science and science classrooms in ways that are aligned with recent calls for science education reform.

Perceived barriers to online education by radiologic science educators.

PubMed

Kowalczyk, Nina K

2014-01-01

Radiologic science programs continue to adopt the use of blended online education in their curricula, with an increase in the use of online courses since 2009. However, perceived barriers to the use of online education formats persist in the radiologic science education community. An electronic survey was conducted to explore the current status of online education in the radiologic sciences and to identify barriers to providing online courses. A random sample of 373 educators from radiography, radiation therapy, and nuclear medicine technology educational programs accredited by the Joint Review Committee on Education in Radiologic Technology and Joint Review Committee on Educational Programs in Nuclear Medicine Technology was chosen to participate in this study. A qualitative analysis of self-identified barriers to online teaching was conducted. Three common themes emerged: information technology (IT) training and support barriers, student-related barriers, and institutional barriers. Online education is not prevalent in the radiologic sciences, in part because of the need for the clinical application of radiologic science course content, but online course activity has increased substantially in radiologic science education, and blended or hybrid course designs can effectively provide opportunities for student-centered learning. Further development is needed to increase faculty IT self-efficacy and to educate faculty regarding pedagogical methods appropriate for online course delivery. To create an excellent online learning environment, educators must move beyond technology issues and focus on providing quality educational experiences for students.

Impact of Additional Guidance in Science Education on Primary Students' Conceptual Understanding

ERIC Educational Resources Information Center

Decristan, Jasmin; Hondrich, A. Lena; Büttner, Gerhard; Hertel, Silke; Klieme, Eckhard; Kunter, Mareike; Lühken, Arnim; Adl-Amini, Katja; Djakovic, Sanna-K.; Mannel, Susanne; Naumann, Alexander; Hardy, Ilonca

2015-01-01

A cognitive and a guidance dimension can describe the support of students' conceptual understanding in inquiry-based science education. The role of guidance for student learning has been intensively discussed. Furthermore, inquiry learning may pose particular challenges to students with low language proficiency. The present intervention in primary…

IBSE and Gifted Students

ERIC Educational Resources Information Center

Trna, Josef

2014-01-01

Inquiry-based science education (IBSE) seems to be the appropriate method to encourage interest in science and technology education. The core principles of IBSE are involvement of students in discovering natural laws, linking information into a meaningful context, developing critical thinking and promoting positive attitudes towards science. IBSE…

Aerospace/Aviation Science Occupations.

ERIC Educational Resources Information Center

North Carolina State Dept. of Public Instruction, Raleigh. Div. of Occupational Education.

The guide was developed to provide secondary students the opportunity to study aviation and aerospace education from the conceptual and career approach coupled with general education specifically related to science. Unit plans were prepared to motivate, develop skills, and offer counseling to the students of aviation science and occupational…

Defining the Relationship of Student Achievement Between STEM Subjects Through Canonical Correlation Analysis of 2011 Trends in International Mathematics and Science Study (TIMSS) Data

NASA Astrophysics Data System (ADS)

O'Neal, Melissa Jean

Canonical correlation analysis was used to analyze data from Trends in International Mathematics and Science Study (TIMSS) 2011 achievement databases encompassing information from fourth/eighth grades. Student achievement in life science/biology was correlated with achievement in mathematics and other sciences across three analytical areas: mathematics and science student performance, achievement in cognitive domains, and achievement in content domains. Strong correlations between student achievement in life science/biology with achievement in mathematics and overall science occurred for both high- and low-performing education systems. Hence, partial emphases on the inter-subject connections did not always lead to a better student learning outcome in STEM education. In addition, student achievement in life science/biology was positively correlated with achievement in mathematics and science cognitive domains; these patterns held true for correlations of life science/biology with mathematics as well as other sciences. The importance of linking student learning experiences between and within STEM domains to support high performance on TIMSS assessments was indicated by correlations of moderate strength (57 TIMSS assessments was indicated by correlations of moderate strength (57 < r < 85) stronger correlations (73 < r < 97) between life science/biology and other science domains. Results demonstrated the foundational nature of STEM knowledge at the fourth grade level, and established the importance of strong interconnections among life science/biology, mathematics, and other sciences. At the eighth grade level, students who built increasing levels of cognitive complexity upon firm foundations were prepared for successful learning throughout their educational careers. The results from this investigation promote a holistic design of school learning opportunities to improve student achievement in life science/biology and other science, technology, engineering, and mathematics (STEM) subjects at the elementary and middle school levels. While the curriculum can vary from combined STEM subjects to separated mathematics or science courses, both professional learning communities (PLC) for teachers and problem-based learning (PBL) for learners can be strengthened through new knowledge construction beyond the traditional boundaries of each subject. It is the knowledge transfer across subjects that breaks barriers of future STEM discoveries to improve STEM education outcomes.

Managing clinical education through understanding key principles.

PubMed

Cunningham, Joanne; Wright, Caroline; Baird, Marilyn

2015-01-01

Traditionally, a practicum facilitated the integration of on-campus learning and practical workplace training. Over the past 3 decades, an educative practicum has evolved that promotes clinical reasoning, including analytical and evaluative abilities, through reflective practice. Anecdotal evidence indicates that the delivery of clinical education within medical radiation science entry-level programs continues to vacillate between traditional practicums and the new reflective practicums. To review the literature about clinical education within the medical radiation sciences and identify key principles for practitioners seeking to reflect upon and improve their approach to teaching and supporting students in the clinical environment. A search of 3 major journal databases, Internet searches, and hand searches of reference lists were conducted to identify literature about clinical education in the medical radiation sciences from January 1, 2000, to December 31, 2012. Twenty-two studies were included in this review. The 5 key elements associated with clinical education include the clinical support model and quality, overcoming the theory-practice gap, learning outcomes and reliable and valid assessment, preparing and supporting students, and accommodating differing teaching and learning needs. Many factors influence the quality of clinical education, including the culture of the clinical environment and clinical leadership roles. Several approaches can help students bridge the theory-practice gap, including simulators, role-playing activities, and reflective journals. In addition, clinical educators should use assessment strategies that objectively measure student progress, and they should be positive role models for their students. The successful clinical education of students in the medical radiation sciences depends upon the systems, structures, and people in the clinical environment. Clinical education is accomplished through the collaborative efforts of the clinical practitioner, the academic, and the student. Universities should include introductory material on clinical learning and teaching in their radiologic science curriculum.

First-Year University Students of Educational Sciences on Inclusive Education: Attitudes and Convictions in Flanders.

ERIC Educational Resources Information Center

Vanderfaeillie, Johan; De Fever, Frank; Lombaerts, Koen

2003-01-01

Assessed the attitudes toward inclusive education of college students at a Flemish college that had a new curriculum designed to familiarize first year educational psychology and special education students with inclusive education. Surveys of students who took introductory courses on inclusion indicated that students neither advocated for nor…

How Science Really Works: The Student Experience of Research-Led Education

ERIC Educational Resources Information Center

Smyth, Lillian; Davila, Federico; Sloan, Thomas; Rykers, Ellen; Backwell, Sam; Jones, Stephen B.

2016-01-01

There has been a shift in modern tertiary education theory that has moved away from a traditional, didactic model of education, towards a more student-led, constructivist approach. Nowhere is this more the case than in science and mathematical education, where the concept of research-led education is gaining more and more traction. The focus of…

Advancing Climate Literacy through Investment in Science Education Faculty, and Future and Current Science Teachers: Providing Professional Learning, Instructional Materials, and a Model for Locally-Relevant and Culturally-Responsive Content

NASA Astrophysics Data System (ADS)

Halversen, C.; Apple, J. K.; McDonnell, J. D.; Weiss, E.

2014-12-01

The Next Generation Science Standards (NGSS) call for 5th grade students to "obtain and combine information about ways individual communities use science ideas to protect Earth's resources and environment". Achieving this, and other objectives in NGSS, will require changes in the educational system for both students and teachers. Teachers need access to high quality instructional materials and continuous professional learning opportunities starting in pre-service education. Students need highly engaging and authentic learning experiences focused on content that is strategically interwoven with science practices. Pre-service and early career teachers, even at the secondary level, often have relatively weak understandings of the complex Earth systems science required for understanding climate change and hold alternative ideas and naïve beliefs about the nature of science. These naïve understandings cause difficulties in portraying and teaching science, especially considering what is being called for in NGSS. The ACLIPSE program focuses on middle school pre-service science teachers and education faculty because: (1) the concepts that underlie climate change align well with the disciplinary core ideas and practices in NGSS for middle grades; and (2) middle school is a critical time for capturing students interest in science as student engagement by eighth grade is the most effective predictor of student pursuit of science in high school and college. Capturing student attention at this age is critical for recruitment to STEM careers and lifelong climate literacy. THE ACLIPSE program uses cutting edge research and technology in ocean observing systems to provide educators with new tools to engage students that will lead to deeper understanding of the interactions between the ocean and climate systems. Establishing authentic, meaningful connections between indigenous and place-based, and technological climate observations will help generate a more holistic perspective on climate change and demonstrate that observing systems can enhance understanding. ACLIPSE materials strive to translate research about climate change effectively into understandable narratives of real world phenomena using ocean data, creating meaningful pathways into ocean-climate science for students in ALL communities.

Gender in STEM Education: An Exploratory Study of Student Perceptions of Math and Science Instructors in the United Arab Emirates

ERIC Educational Resources Information Center

Pasha-Zaidi, Nausheen; Afari, Ernest

2016-01-01

The current study addresses student perceptions of math and science professors in the Middle East. Gender disparity in science, technology, engineering, and math (STEM) education continues to exist in higher education, with male professors holding a normative position. This disparity can also be seen in the United Arab Emirates. As female…

A Comparative Study of Turkish Elementary and Science Education Major Students' Knowledge Levels at the Popular Biotechnological Issues

ERIC Educational Resources Information Center

Turkmen, Lutfullah; Darcin, Emine Selcen

2007-01-01

The purpose of this study was to determine the knowledge levels of popular biotechnological issues of Turkish science and elementary teacher candidates. A questionnaire was administered during 2006-2007 school term to 336 students pursuing their education in the departments of science and elementary education in two Turkish universities. The…

What Does It Means to Be a Critical Scholar? A Metalogue between Science Education Doctoral Students

ERIC Educational Resources Information Center

Cian, Heidi; Dsouza, Nikeetha; Lyons, Renee; Alston, Daniel

2017-01-01

This manuscript is written in response to Lydia Burke and Jesse Bazzul's article "Locating a space of criticality as new scholars in science education". As doctoral students finding our place in the culture of science education, we respond by discussing our journeys towards the development of a scholarly identity, with particular focus…

News Music: Here comes science that rocks Student trip: Two views of the future of CERN Classroom: Researchers can motivate pupils Appointment: AstraZeneca trust appoints new director Multimedia: Physics Education comes to YouTube Competition: Students compete in European Union Science Olympiad 2010 Physics roadshow: Pupils see wonders of physics

NASA Astrophysics Data System (ADS)

2010-07-01

Music: Here comes science that rocks Student trip: Two views of the future of CERN Classroom: Researchers can motivate pupils Appointment: AstraZeneca trust appoints new director Multimedia: Physics Education comes to YouTube Competition: Students compete in European Union Science Olympiad 2010 Physics roadshow: Pupils see wonders of physics

Re-Imagining Science Education: Engaging Students in Science for Australia's Future. Australian Education Review 51

ERIC Educational Resources Information Center

Tytler, Russell

2007-01-01

Australian Education Review (AER) 51 elaborates on issues raised by the Australian Council for Educational Research (ACER) Research Conference 2006: "Boosting Science Learning--What Will It Take?" It challenges current orthodoxies in science education and proposes a re-imagining that charts new directions for science teaching and…

A comparative study teaching chemistry using the 5E learning cycle and traditional teaching with a large English language population in a middle-school setting

NASA Astrophysics Data System (ADS)

McWright, Cynthia Nicole

For decades science educators and educational institutions have been concerned with the status of science content being taught in K-12 schools and the delivery of the content. Thus, educational reformers in the United States continue to strive to solve the problem on how to best teach science for optimal success in learning. The constructivist movement has been at the forefront of this effort. With mandatory testing nationwide and an increase in science, technology, engineering, and mathematics (STEM) jobs with little workforce to fulfill these needs, the question of what to teach and how to teach science remains a concern among educators and all stakeholders. The purpose of this research was to determine if students' chemistry knowledge and interest can be increased by using the 5E learning cycle in a middle school with a high population of English language learners. The participants were eighth-grade middle school students in a large metropolitan area. Students participated in a month-long chemistry unit. The study was a quantitative, quasi-experimental design with a control group using a traditional lecture-style teaching strategy and an experimental group using the 5E learning cycle. Students completed a pre-and post-student attitude in science surveys, a pretest/posttest for each mini-unit taught and completed daily exit tickets using the Expert Science Teaching Educational Evaluation Model (ESTEEM) instrument to measure daily student outcomes in main idea, student inquiry, and relevancy. Analysis of the data showed that there was no statistical difference between the two groups overall, and all students experienced a gain in content knowledge overall. All students demonstrated a statistically significant difference in their interest in science class, activities in science class, and outside of school. Data also showed that scores in writing the main idea and writing inquiry questions about the content increased over time.

Enrichment of Science Education Using Real-time Data Streams

NASA Astrophysics Data System (ADS)

McDonnell, J. M.; de Luca, M. P.

2002-12-01

For the past six years, Rutgers Marine and Coastal Sciences (RMCS) has capitalized on human interest and fascination with the ocean by using the marine environment as an entry point to develop interest and capability in understanding science. This natural interest has been used as a springboard to encourage educators and their students to use the marine environment as a focal point to develop basic skills in reading, writing, math, problem-solving, and critical thinking. With the selection of model science programs and the development of collaborative school projects and Internet connections, RMCS has provided a common ground for scientists and educators to create interesting and meaningful science learning experiences for classroom application. Student exposure to the nature of scientific inquiry also prepares them to be informed decision-makers and citizens. Technology serves as an educational tool, and its usefulness is determined by the quality of the curriculum content and instructional strategy it helps to employ. In light of this, educational issues such as curriculum reform, professional development, assessment, and equity must be addressed as they relate to technology. Efforts have been made by a number of organizations to use technology to bring ocean science education into the K-12 classroom. RMCS has used he Internet to increase (1) communication and collaboration among students and teacher, (2) the range of resources available to students, and (3) opportunities for students and educators to present their ideas and opinions. Technology-based educational activities will be described.

Integrating independent research into science curricula to foster STEM leadership

NASA Astrophysics Data System (ADS)

Queenan, Craig; Calabro, Alyssa; Becker, David

2013-05-01

Preparing students for college and future careers is one of the main goals of K-12 education, but current STEM teaching methods do not do enough to interest students and leave them prepared to enter into and succeed in STEM careers. While measures to implement unifying standards for science education across the country are aimed at ensuring that all students are taught the same material at each grade level, a shift in the way science is taught to is needed to complete the redesign of science education. The independent research model described here aligns with the new content standards and focuses on developing the principles of perspective, purpose, resources, collaboration, analysis, and presentation. These principles not only engage students in the classroom, but also leave students prepared to enter into science programs in college and succeed in leadership roles in the STEM workforce.

Impact Assessment of a Department-Wide Science Education Initiative Using Students' Perceptions of Teaching and Learning Experiences

ERIC Educational Resources Information Center

Jones, Francis

2017-01-01

Evaluating major post-secondary education improvement projects involves multiple perspectives, including students' perceptions of their experiences. In the final year of a seven-year department-wide science education initiative, we asked students in 48 courses to rate the extent to which each of 39 teaching or learning strategies helped them learn…

A comparative analysis of Science-Technology-Society standards in elementary, middle and high school state science curriculum frameworks

NASA Astrophysics Data System (ADS)

Tobias, Karen Marie

An analysis of curriculum frameworks from the fifty states to ascertain the compliance with the National Science Education Standards for integrating Science-Technology-Society (STS) themes is reported within this dissertation. Science standards for all fifty states were analyzed to determine if the STS criteria were integrated at the elementary, middle, and high school levels of education. The analysis determined the compliance level for each state, then compared each educational level to see if the compliance was similar across the levels. Compliance is important because research shows that using STS themes in the science classroom increases the student's understanding of the concepts, increases the student's problem solving skills, increases the student's self-efficacy with respect to science, and students instructed using STS themes score well on science high stakes tests. The two hypotheses for this study are: (1) There is no significant difference in the degree of compliance to Science-Technology-Society themes (derived from National Science Education Standards) between the elementary, middle, and high school levels. (2) There is no significant difference in the degree of compliance to Science-Technology-Society themes (derived from National Science Education Standards) between the elementary, middle, and high school level when examined individually. The Analysis of Variance F ratio was used to determine the variance between and within the three educational levels. This analysis addressed hypothesis one. The Analysis of Variance results refused to reject the null hypothesis, meaning there is significant difference in the compliance to STS themes between the elementary, middle and high school educational levels. The Chi-Square test was the statistical analysis used to compare the educational levels for each individual criterion. This analysis addressed hypothesis two. The Chi-Squared results showed that none of the states were equally compliant with each individual criterion across the elementary, middle, and high school levels. The National Science Education Standards were created with the input of thousands of people and over twenty scientific and educational societies. The standards were tested in numerous classrooms and showed an increase in science literacy for the students. With the No Child Left Behind legislation and Project 2061, the attainment of a science literate society will be helped by the adoption of the NSES standards and the STS themes into the American classrooms.

The material co-construction of hard science fiction and physics

NASA Astrophysics Data System (ADS)

Hasse, Cathrine

2015-12-01

This article explores the relationship between hard science fiction and physics and a gendered culture of science. Empirical studies indicate that science fiction references might spur some students' interest in physics and help develop this interest throughout school, into a university education and even further later inspire the practice of doing science. There are many kinds of fiction within the science fiction genre. In the presented empirical exploration physics students seem particularly fond of what is called `hard science fiction': a particular type of science fiction dealing with technological developments (Hartwell and Cramer in The hard SF renaissance, Orb/TOR, New York, 2002). Especially hard science fiction as a motivating fantasy may, however, also come with a gender bias. The locally materialized techno-fantasies spurring dreams of the terraforming of planets like Mars and travels in time and space may not be shared by all physics students. Especially female students express a need for other concerns in science. The entanglement of physics with hard science fiction may thus help develop some students' interest in learning school physics and help create an interest for studying physics at university level. But research indicates that especially female students are not captured by the hard techno-fantasies to the same extent as some of their male colleagues. Other visions (e.g. inspired by soft science fiction) are not materialized as a resource in the local educational culture. It calls for an argument of how teaching science is also teaching cultural values, ethics and concerns, which may be gendered. Teaching materials, like the use of hard science fiction in education, may not just be (yet another) gender bias in science education but also carrier of particular visions for scientific endeavours.

Social Media in Health Science Education: An International Survey.

PubMed

O'Sullivan, Elizabeth; Cutts, Emily; Kavikondala, Sushma; Salcedo, Alejandra; D'Souza, Karan; Hernandez-Torre, Martin; Anderson, Claire; Tiwari, Agnes; Ho, Kendall; Last, Jason

2017-01-04

Social media is an asset that higher education students can use for an array of purposes. Studies have shown the merits of social media use in educational settings; however, its adoption in health science education has been slow, and the contributing reasons remain unclear. This multidisciplinary study aimed to examine health science students' opinions on the use of social media in health science education and identify factors that may discourage its use. Data were collected from the Universitas 21 "Use of social media in health education" survey, distributed electronically among the health science staff and students from 8 universities in 7 countries. The 1640 student respondents were grouped as users or nonusers based on their reported frequency of social media use in their education. Of the 1640 respondents, 1343 (81.89%) use social media in their education. Only 462 of the 1320 (35.00%) respondents have received specific social media training, and of those who have not, the majority (64.9%, 608/936) would like the opportunity. Users and nonusers reported the same 3 factors as the top barriers to their use of social media: uncertainty on policies, concerns about professionalism, and lack of support from the department. Nonusers reported all the barriers more frequently and almost half of nonusers reported not knowing how to incorporate social media into their learning. Among users, more than one fifth (20.5%, 50/243) of students who use social media "almost always" reported sharing clinical images without explicit permission. Our global, interdisciplinary study demonstrates that a significant number of students across all health science disciplines self-reported sharing clinical images inappropriately, and thus request the need for policies and training specific to social media use in health science education. ©Elizabeth O'Sullivan, Emily Cutts, Sushma Kavikondala, Alejandra Salcedo, Karan D'Souza, Martin Hernandez-Torre, Claire Anderson, Agnes Tiwari, Kendall Ho, Jason Last. Originally published in JMIR Medical Education (http://mededu.jmir.org), 04.01.2017.

Interdisciplinary Teaching in a Water Educational Training Science Program: Its Impact on Science Concept Knowledge, Writing Performance, and Interest in Science and Writing of Elementary Students.

ERIC Educational Resources Information Center

Moore-Hart, Margaret A.; Liggit, Peggy; Daisey, Peggy

This paper presents a study investigating the effects of the Water Education Training (WET) program on students' performance in science. The WET Program is an after school program using an interdisciplinary approach which has three main objectives: improving science concept knowledge, writing performance, and attitudes toward science and writing.…

Transcending the conventional science curriculum: Supporting students in the negotiation of meaning and finding their place in science

NASA Astrophysics Data System (ADS)

Price, Jeremy Forest

Science education in schools is often inadvertently designed so that it is frequently inconsistent with students' lived experiences (Aikenhead, 1996, 2001; Brickhouse & Potter, 2001). Science is therefore seen by students as an endeavor for someone else, contributing to a lack of access to the knowledge necessary to address scientific and environmental issues (Calabrese Barton, 2002; Fraser-Abder, Atwater, & Lee, 2006). This research promotes an exploration of meanings, allowing students to find their place in science and the roles that science fills for them. I assert that the consideration of humanistic approaches to science education provides the base necessary to transcend the uncritical acceptance of the assumptions of the conventional science curriculum. Through a review of the literature, I provide a survey of three humanistic pathways in science education: liberal, renewal, and cultural-progressive. I developed activities in cooperation with a high school biology teacher based on these approaches: drawing pictures of science-in-action, a specialized gallery walk, a role play, and the storyboarding of a science-oriented public service announcement. Utilizing qualitative research methods and drawing on the concept of figured worlds (Holland, Lachicotte, Skinner, & Cain, 1998; Urrieta, 2007), this project was conducted in a high school biology classroom with a diverse range of students. Research methods included classroom observations over a period of eight weeks, ethnographic interviews, artifact collection and analysis, pile sorts, rank ordering, and oral and written reflections by the teacher and her students. Analysis of this data suggests that the meanings of science for students and their teacher were diverse and emergent through the interactions of personal histories and developing identities, activities, and reflection. This research further illustrates how integrating the plurality of the humanistic approaches to science education provides ways for students and teachers to engage in meaningful, rich, and cognitively challenging experiences. Such experiences allow for the exploration of meaning and possible identities in and with science.

The role of outside-school factors in science education: a two-stage theoretical model linking Bourdieu and Sen, with a case study

NASA Astrophysics Data System (ADS)

Gokpinar, Tuba; Reiss, Michael

2016-05-01

The literature in science education highlights the potentially significant role of outside-school factors such as parents, cultural contexts and role models in students' formation of science attitudes and aspirations, and their attainment in science classes. In this paper, building on and linking Bourdieu's key concepts of habitus, cultural and social capital, and field with Sen's capability approach, we develop a model of students' science-related capability development. Our model proposes that the role of outside-school factors is twofold, first, in providing an initial set of science-related resources (i.e. habitus, cultural and social capital), and then in conversion of these resources to science-related capabilities. The model also highlights the distinction between science-related functionings (outcomes achieved by individuals) and science-related capabilities (ability to achieve desired functionings), and argues that it is necessary to consider science-related capability development in evaluating the effectiveness of science education. We then test our theoretical model with an account of three Turkish immigrant students' science-related capabilities and the role of outside-school factors in forming and extending these capabilities. We use student and parent interviews, student questionnaires and in-class observations to provide an analysis of how outside-school factors influence these students' attitudes, aspirations and attainment in science.

Level of the Environmental Risks' Awareness of Water Shortage for the Educational Sciences College's Student-Teachers at the World Islamic Sciences and Education University in Jordan

ERIC Educational Resources Information Center

Alebous, Tahani

2016-01-01

The study aimed at investigating the degree of awareness of environmental risks of water shortage of students-teachers in the majors of Classroom teachers, Counseling and Special education in the Education Sciences College at WISE and their degree of awareness according to major and gender. The sample of the study which was selected randomly…

A survey of specific individualized instruction strategies in elementary science methods courses in Tennessee teacher education institutions

NASA Astrophysics Data System (ADS)

Hazari, Alan A.

The purpose of the study was to determine the status of individualized science instruction in Tennessee teacher education institutions. Specifically, the study sought to investigate the extent of teaching about and/or use of 31 strategies for individualizing instruction in elementary science teaching methods courses. The individualized instruction frameworks, with strategies for individualizing instruction, were developed by Rowell, et al. in the College of Education at the University of Tennessee, Knoxville. A review of the literature on the preparation of preservice elementary science teachers for individualized instruction in K-8 classrooms revealed very limited research. This investigation sought to identify how the elementary science teacher educators prepared their preservice elementary science teachers to (1) learn about the children they will teach, (2) determine differences among learners, (3) plan for individualized science instruction in the elementary school classroom, and (4) help attend to individual student differences. The researcher prepared and used a 31-item survey to poll elementary science teacher educators in Tennessee. The participants included K-8 educators from 40 state-approved teacher education institutions. The high teacher education institution response rate (72.5%) brought input from institutions of varying sizes, operated privately or publicly across the state of Tennessee. In general, Tennessee elementary science teacher educators reported that they tended to teach about and/or use a fair number of the 31 individualized instruction strategies that involve both learning about K-8 students and their differences. On the other hand, many of these educators provided preservice teachers with quite a bit of the strategies that lead to planning for individualized science instruction and to attending to individual student differences. The two strategies that were the most taught about and/or used in elementary science methods by Tennessee educators were planning for and maintaining an interactive classroom and implementing cooperative learning groups. The two strategies with the lowest rating were using a computer-tracking system to keep student profiles and using commercial tests to determine student placement. Almost 42% of the strategies in the survey were rated high to very high. This indicated that Tennessee educators do regularly include many of these 31 strategies in their elementary science methods courses. Examples include hands-on approach, cooperative learning, thematic and project teaching, learning centers, and the use of the Tennessee Instructional Model. The study also showed that Tennessee science teacher educators in church-related institutions appeared to utilize more of the 31 strategies for individualizing instruction in K-8 classrooms than do the educators in non-church-related institutions. Tennessee K-8 teachers could be better prepared if exposed to as many different and effective pedagogical tools and practices as possible during their education and preparation. A strong science program rich in content and a variety of instructional strategies (including individualized instruction) is needed to help maximize the science learning opportunities for all Tennessee students.

The Scottish Centre for Mathematics, Science and Technical Education

ERIC Educational Resources Information Center

Sandercock, E. R.

1977-01-01

The Centre's functions are described. A flow diagram, developed for the Scottish Integrated Science Course, showing a modular approach to science for mixed ability or low ability students is given. This course is intended for students in their first two years of secondary education. (AJ)

Trends of Students of the College of Basic Science towards Teaching the Course of Athletics and Health by Using Computer Technology in the World Islamic Sciences and Education University (WISE)

ERIC Educational Resources Information Center

Salameh, Ibrahim Abdul Ghani; Khawaldeh, Mohammad Falah Ali

2014-01-01

The Study aimed at identifying the trends of the students of basic sciences College in the World Islamic Sciences and Education University towards teaching health and sport course by using computer technology as a teaching method, and to identify also the impact of the variables of academic level and the gender on the students' trends. The study…

Investigation of Primary Education Second Level Students' Motivations toward Science Learning in Terms of Various Factors

ERIC Educational Resources Information Center

Sert Çibik, Ayse

2014-01-01

The purpose of this research was to investigate the primary education second level students' motivations towards science learning in terms of various factors. Within the research, the variation of the total motivational scores in science learning according to the gender, class, socio-economic levels, success in science-technology course and…

Confronting the Need for Conceptual Change in Pre-Service Science Education

ERIC Educational Resources Information Center

Schwartz, Marc S.; Shapiro, Irwin I.; Gregory, Bruce

2013-01-01

During a five-year period the authors taught over 100 students in a graduate course (The Nature of Science) counting toward teacher certification at the Harvard Graduate School of Education. Despite the fact that students had undergraduate degrees in the sciences, most of them found the application of models in science challenging and the…

Computer Science in High School Graduation Requirements. ECS Education Trends (Updated)

ERIC Educational Resources Information Center

Zinth, Jennifer

2016-01-01

Allowing high school students to fulfill a math or science high school graduation requirement via a computer science credit may encourage more student to pursue computer science coursework. This Education Trends report is an update to the original report released in April 2015 and explores state policies that allow or require districts to apply…

K-12 Students, Teachers, Parents, Administrators and Higher Education Faculty: Partners Helping Rural Disadvantaged Students Stay on the Pathway to a Geoscience Career

NASA Astrophysics Data System (ADS)

Slattery, W.; Antonucci, C.; Myers, R. J.

2013-12-01

The National Science Foundation funded project K-12 Students, Teachers, Parents, Administrators and Higher Education Faculty: Partners Helping Rural Disadvantaged Students Stay on the Pathway to a Geoscience Career is a research-based proof of concept track 1 pilot project that tests the effectiveness of an innovative model for simultaneous K-12 teacher professional development, student learning and workforce development. The project builds a network of science experiences designed to keep eighth and ninth grade students from the Ripley, Union, Lewis, Huntington (RULH) Ohio school district on the path to a geoscience career. During each summer of the ongoing two-year project teams of RULH students, parents, teachers, administrators and college faculty traveled to the facilities of the New Jersey Sea Grant Consortium at Sandy Hook, New Jersey to study science from an Earth system perspective. Teachers had the opportunity to engage in professional development alongside their students. Parents participated in the science activities alongside their children. Administrators interacted with students, parents and their teachers and saw them all learning science in an engaging, collaborative setting. During the first academic year of the project professional development was provided to RULH teachers by a team of university scientists and geoscience educators from the Earth System Science Education Alliance (ESSEA), a National Science Foundation funded project. Teachers selected for professional development were from science disciplines, mathematics, language arts and civics. The teachers selected, taught and assessed ESSEA Earth system science modules to all eighth and ninth grade students, not just those that were selected to go on the summer trips to New Jersey. In addition, all ninth grade RULH students had the opportunity to take a course that includes Earth system science concepts that will earn them both high school and college science credits. Professional development will continue through the 2013-2014 academic year. Formative assessment of the ongoing project indicates that students, teachers, parents and school administrators rank their experiences highly and that students are motivated to continue on the path to geoscience careers.

Student Engagement and Empowerment Through Earth System Science

NASA Astrophysics Data System (ADS)

Low, R.; Schnurrenberger, D.

2001-12-01

Through ESSEA's curricula, we promote empowerment of our diverse student body through access to excellence in science education and technology. Global change, by virtue of its economic relevance and environmental urgency, engages students in science inquiry. Global change is emerging as a political issue as countries with fewer resources are less able to buffer their economic systems from hardships resulting from climatic change. The ESS and global change emphasis facilitates in-depth classroom examination of the social ramifications of science and technology as required by Minnesota's state science standards. Access to ESSEA courses for in-service teachers is promoted by several programmatic initiatives of the University of Minnesota. High school and undergraduate versions of the on-line course are now in development. Summer research experiences for teachers, research projects by secondary classrooms tracking local environmental change, and involvement of graduate student scientists as on-line mentors of the ESSEA courses are components of a broader program that is building a multidisciplinary science-based learning community in Minnesota. ESSEA is the flagship program of Science CentrUM, a consortium of science and education colleges at the University of Minnesota promoting excellence in science education through content-based professional development for K-12 educators.

The Effects of Case-Based Instruction on Undergraduate Biology Students' Understanding of the Nature of Science

NASA Astrophysics Data System (ADS)

Burniston, Amy Lucinda

Undergraduate science education is currently seeing a dramatic pedagogical push towards teaching the philosophies underpinning science as well as an increase in strategies that employ active learning. Many active learning strategies stem from constructivist ideals and have been shown to affect a student's understanding of how science operates and its impact on society- commonly referred to as the nature of science (NOS). One particular constructivist teaching strategy, case-based instruction (CBI), has been recommended by researchers and science education reformists as an effective instructional strategy for teaching NOS. Furthermore, when coupled with explicit-reflective instruction, CBI has been found to significantly increasing understanding of NOS in elementary and secondary students. However, few studies aimed their research on CBI and NOS towards higher education. Thus, this study uses a quasi-experimental, nonequivalent group design to study the effects of CBI on undergraduate science students understandings of NOS. Undergraduate biology student's understanding of NOS were assessed using the Views of Science Education (VOSE) instrument pre and post CBI intervention in Cellular and Molecular Biology and Human Anatomy and Physiology II. Data analysis indicated statistically significant differences between students NOS scores in experimental versus control sections for both courses, with experimental groups obtaining higher posttest scores. The results of this study indicate that undergraduate male and female students have similarly poor understandings of NOS and the use of historical case based instruction can be used as a means to increase undergraduate understanding of NOS.

What Is "Agency"? Perspectives in Science Education Research

ERIC Educational Resources Information Center

Arnold, Jenny; Clarke, David John

2014-01-01

The contemporary interest in researching student agency in science education reflects concerns about the relevance of schooling and a shift in science education towards understanding learning in science as a complex social activity. The purpose of this article is to identify problems confronting the science education community in the development…

Research in Science Education. Volume 14. Selections of Papers from the Annual Conference of the Australian Science Education Research Association (15th, Victoria, Australia, May 1984).

ERIC Educational Resources Information Center

Tisher, Richard P., Ed.

1984-01-01

This publication contains studies which focus on students' science concepts and the alternative frameworks they use to interpret natural phenomena. Among the specific areas investigated are: conceptions held by Year 11 chemistry students about stoichiometry; how some 9-year-old students interpret the word "solid" to mean hard,…

An Examination of Effective Practice: Moving Toward Elimination of Achievement Gaps in Science

NASA Astrophysics Data System (ADS)

Johnson, Carla C.

2009-06-01

This longitudinal study of middle school science teachers explored the relationship between effective science instruction, as defined by the National Science Education Standards (NRC in National science education standards. National Academy Press, Washington, DC, 1996), and student achievement in science. Eleven teachers participated in a three year study of teacher effectiveness, determined by the LSC Classroom Observation Protocol (Horizon Research, Inc. in Local Systemic Change Classroom Observation Protocol. May 1, 2002) and student achievement, which was assessed using the Discovery Inquiry Test in Science. Findings in this study revealed the positive impact that effective science teachers have on student learning, eliminating achievement gaps between White and Non-White students. Case studies of three teachers, both effective and ineffective explore the beliefs and experiences that influence teachers to change, or not to change practice. This study provides justification for teaching science effectively to narrow achievement gaps in science and provides insight to stakeholders in science education as to how to support teachers in becoming more effective, through addressing existing teacher beliefs and providing experiences that challenge those beliefs.

Investigating Undergraduate Science Students' Conceptions and Misconceptions of Ocean Acidification

ERIC Educational Resources Information Center

Danielson, Kathryn I.; Tanner, Kimberly D.

2015-01-01

Scientific research exploring ocean acidification has grown significantly in past decades. However, little science education research has investigated the extent to which undergraduate science students understand this topic. Of all undergraduate students, one might predict science students to be best able to understand ocean acidification. What…

Teachers engaging in Authentic Education Research as They Engage Students in Authentic Science Research: A Collaboration Among Scientists, Education Researchers and Practitioners

NASA Astrophysics Data System (ADS)

Schielack, J. F.; Herbert, B. E.

2004-12-01

The ITS Center for Teaching and Learning (http://its.tamu.edu) is a five-year NSF-funded collaborative effort to engage scientists, educational researchers, and educators in the use of information technology to enhance science teaching and learning at Grades 7 - 16. The ITS program combines graduate courses in science and science education leadership for both science and education graduate students with professional development experiences for classroom teachers. The design of the ITS professional development experience is based upon the assumption that science and mathematics teaching and learning will be improved when they become more connected to the authentic science research done in field settings or laboratories. The effective use of information technology to support inquiry in science classrooms has been shown to help achieve this objective. In particular, the professional development for teachers centers around support for implementing educational research in their own classrooms on the impacts of using information technology to promote authentic science experiences for their students. As a design study that is "working toward a greater understanding of the "learning ecology," the research related to the creation and refinement of the ITS Center's collaborative environment for integrating professional development for faculty, graduate students, and classroom teachers is contributing information about an important setting not often included in the descriptions of professional development, a setting that incorporates distributed expertise and resulting distributed growth in the various categories of participants: scientists, science graduate students, education researchers, science education graduate students, and master teachers. Design-based research is an emerging paradigm for the study of learning in context through the systematic design and study of instructional strategies and tools. In this presentation, we will discuss the results of the formative evaluation process that has moved the ITS Center's collaborative environment for professional development through the iterative process from Phase I (the planned program designed in-house) to Phase II (the experimental program being tested in-house). Phase II highlighted learning experiences over two summers focused on the exploration of environmentally-related science, technology, engineering or mathematics (STEM) topics through the use of modeling, visualization and complex data sets to explore authentic scientific questions that can be integrated within the 7-16 curriculum.

Reading, Writing & Rings: Science Literacy for K-4 Students

NASA Astrophysics Data System (ADS)

McConnell, S.; Spilker, L.; Zimmerman-Brachman, R.

2007-12-01

Scientific discovery is the impetus for the K-4 Education program, "Reading, Writing & Rings." This program is unique because its focus is to engage elementary students in reading and writing to strengthen these basic academic skills through scientific content. As science has been increasingly overtaken by the language arts in elementary classrooms, the Cassini Education Program has taken advantage of a new cross-disciplinary approach to use language arts as a vehicle for increasing scientific content in the classroom. By utilizing the planet Saturn and the Cassini-Huygens mission as a model in both primary reading and writing students in these grade levels, young students can explore science material while at the same time learning these basic academic skills. Content includes reading, thinking, and hands-on activities. Developed in partnership with the Cassini-Huygens Education and Public Outreach Program, the Bay Area Writing Project/California Writing Project, Foundations in Reading Through Science & Technology (FIRST), and the Caltech Pre-College Science Initiative (CAPSI), and classroom educators, "Reading, Writing & Rings" blends the excitement of space exploration with reading and writing. All materials are teacher developed, aligned with national science and language education standards, and are available from the Cassini-Huygens website: http://saturn.jpl.nasa.gov/education/edu-k4.cfm Materials are divided into two grade level units. One unit is designed for students in grades 1 and 2 while the other unit focuses on students in grades 3 and 4. Each includes a series of lessons that take students on a path of exploration of Saturn using reading and writing prompts.

Internet Links for Science Education: Student-Scientist Partnerships.

ERIC Educational Resources Information Center

Cohen, Karen C., Ed.

This volume focuses on Student-Scientist Partnerships (SSPs) and illustrates the workings and effectiveness of this new paradigm and growing force in science education. The chapters are: chapter 1, "Student-Scientist Partnerships: Shrewd Maneuvers" (Robert F. Tinker); chapter 2, "The GLOBE Program: A Model for International Environmental…

The Development of STEAM Educational Policy to Promote Student Creativity and Social Empowerment

ERIC Educational Resources Information Center

Allina, Babette

2018-01-01

The Science, Technology, Engineering, Arts, and Mathematics (STEAM) movement argues that broad-based education that promotes creativity recognizes student learning diversity, increases student engagement and can potentially enhance Science, Technology, Engineering, and Mathematics (STEM) learning by embracing cross-cutting translational skills…

Hierarchical Effects of School-, Classroom-, and Student-Level Factors on the Science Performance of Eighth-Grade Taiwanese Students

NASA Astrophysics Data System (ADS)

Tsai, Liang-Ting; Yang, Chih-Chien

2015-05-01

This study was conducted to understand the effect of student-, classroom-, and school-level factors on the science performance of 8th-grade Taiwanese students in the Trends in International Mathematics and Science Study (TIMSS) 2011 by using multilevel analysis. A total of 5,042 students from 153 classrooms of 150 schools participated in the TIMSS 2011 study, in which they were required to complete questionnaires. A 3-level multilevel analysis was used to assess the influence of factors at 3 levels on the science performance of 8th-grade Taiwanese students. The results showed that the provision of education resources at home, teachers' level of education, and school climate were the strongest predictor of science performance at the student, classroom, and school level, respectively. It was concluded that the science performance of 8th-grade Taiwanese students is driven largely by individual factors. Classroom-level factors accounted for a smaller proportion of the total variance in science performance than did school-level factors.

Improved knowledge gain and retention for third-year medical students during surgical journal club using basic science review: A pilot study.

PubMed

Williams, Austin D; Mann, Barry D

2017-02-01

As they enter the clinical years, medical students face large adjustments in the acquisition of medical knowledge. We hypothesized that basic science review related to the topic of journal club papers would increase the educational benefit for third-year medical students. Students were randomized either to participation in a review session about basic science related to the journal club paper, or to no review. After one day, and after three months, students were given a 10-question quiz encompassing the basic science and the clinical implications of the paper. Twenty-six of 50 students were randomized to basic science review. These students scored better on both sections of the quiz one day after journal club, but only on basic science questions after three months. Students who participated in basic science review had better knowledge gain and retention. Educational activities building upon foundational knowledge improves learning on clinical rotations. Copyright © 2016 Elsevier Inc. All rights reserved.

An Investigation of a Culturally Responsive Approach to Science Education in a Summer Program for Marginalized Youth

NASA Astrophysics Data System (ADS)

Garvin, Brittany A.

There have been numerous calls and efforts made to provide states, school districts, and communities needed financial support to increase and enhance access to and opportunities in Science, Technology, Engineering, and Math (STEM) related disciplines for marginalized populations (Tyson, Lee, & Hanson, 2007; Caldwell & Siwatu, 2003). As the challenge to better educate students of color and poor students intensifies, the need to provide equitable science learning experiences for all students aimed at scientific literacy and STEM also becomes critical. Thus the need to provide summer science enrichment programs where students engage in scientific experimentation, investigation, and critical thinking are vital to helping students who have been traditionally marginalized achieve success in school science and enter the science career pipeline. This mixed methods study examined the impact of a culturally responsive approach on student attitudes, interests in science education and STEM careers, and basic science content knowledge before and after participation in an upward bound summer program. Quantitative results indicated using a culturally responsive approach to teach science in an informal learning space significantly increases student achievement. Students receiving culturally responsive science instruction exhibited statistically significant increases in their posttest science scores compared to pretest science scores, M = 0.376, 95% CI [0.266, 0.487], t (10) = 7.610, p < 0.001. Likewise, students receiving culturally responsive science instruction had a significantly higher interest in science (M = 1.740, SD = 0.548) and STEM careers, M = 0.597, 95% CI [0.276, 0.919], p = 0.001. The qualitative data obtained in this study sought to gain a more in-depth understanding of the impact of a culturally responsive approach on students' attitudes, interests in science and STEM careers. Findings suggest providing students the opportunity to do and learn science utilizing a culturally responsive approach was much more beneficial to their overall science knowledge, as it allowed students to experience, understand, and connect to and through their science learning. Likewise, culturally responsive science instruction helped students to foster a more positive interest in science and STEM careers as it provided students the opportunity to do science in a meaningful and relevant way. Moreover, results revealed students receiving culturally responsive science instruction were able to see themselves represented in the curriculum and recognized their own strengths; as a result they were more validated and affirmed in and transformed by, their learning.

Female and male Hispanic students majoring in science or engineering: Their stories describing their educational journeys

NASA Astrophysics Data System (ADS)

Brown, Susan Wightman

National statistics clearly demonstrate an underrepresentation of minorities in the fields of science and engineering. Blacks, Hispanics, American Indians, and Asians do not typically choose science or engineering as their college major; therefore, there is a very small representation of these minorities in the science and engineering labor force. The decision not to major in science and engineering may begin as soon as the child can begin to recognize role models in the media. News stories, magazine articles, television programs, teachers, parents, administrators, and other agencies have painted the picture of a scientist or engineer as being dominantly a White male. Schools have continued society's portrayal by using curriculum, textbooks, role models, instructional strategies, and counseling that continues to encourage the White male to succeed in science and engineering, but discourages the minority students, male and female, from succeeding in these fields. In this qualitative study, 22 Hispanic students, 12 female and 10 male, who are majoring in science or engineering, were interviewed using Seidman's in-depth interviewing technique. These students were shadowed in their college science or engineering classes; their high school and college transcripts were analyzed; and, a focus group was brought together at the end of the interviewing process in order to allow interaction between the participants. The goal was to explore the educational journeys of the 22 Hispanic students. What made a difference in the journeys of these 22 students so that they could succeed in majors that have historically discouraged minority students? Seven themes emerged: family support, honors program, challenging and interactive curriculum, college preparation in high school courses, caring and kind teachers, small class size, and small communities. Gender comparison of the educational journeys documents these differences between the females and males: college preparation, mentoring, special school and summer programs, and gender role conflicts. In Chapter Six, a picture is painted by these 22 Hispanic students of a school that would promote success for all minority students in science and engineering related classes. Science and math educators, and really all educators, should take note and changes need to be made in our schools in order to provide a learning environment for all students.

The influence of extracurricular activities on middle school students' science learning in China

NASA Astrophysics Data System (ADS)

Zhang, Danhui; Tang, Xing

2017-07-01

Informal science learning has been found to have effects on students' science learning. Through the use of secondary data from a national assessment of 7410 middle school students in China, this study explores the relationship among five types of extracurricular science activities, learning interests, academic self-concept, and science achievement. Structural equation modelling was used to investigate the influence of students' self-chosen and school-organised extracurricular activities on science achievement through mediating interests and the academic self-concept. Chi-square tests were used to determine whether there was an opportunity gap in the student's engagement in extracurricular activities. The students' volunteer and school-organised participation in extracurricular science activities had a positive and indirect influence on their science achievement through the mediating variables of their learning interests and academic self-concept. However, there were opportunity gaps between different groups of students in terms of school location, family background, and especially the mother's education level. Students from urban areas with better-educated mothers or higher socioeconomic status are more likely to access diverse science-related extracurricular activities.

A study of mathematics and science achievement scores among African American students and the impact of teacher-oriented variables on them through the Educational Longitudinal Study, 2002 (ELS: 2002) data

NASA Astrophysics Data System (ADS)

Walker, Valentine

The purpose of this dissertation was to utilize the ELS: 2002 longitudinal data to highlight the achievement of African American students relative to other racial sub-groups in mathematics and science and to highlight teacher oriented variables that might influence their achievement. Various statistical tools, including descriptive statistics, ANOVA, Multiple Regression were used to analyze data that was derived from the students', teachers' and administrations' questionnaires compiled in the base year of the study (2002) as well as the first follow-up transcript study (2006). The major findings are as follows: African American students performed lower than all other major racial subgroups in mathematics and science; Parental variables including SES and parental education were strong correlates of achievement in mathematics and science: The amount and type of mathematics and science courses students took were strong predictors of achievement in mathematics and science; Teachers' race, experience, certification status, graduate courses completed and professional development influenced African American students' achievement in mathematics and science; Aspects of classroom climate including teacher-pupil relationship, classroom management, students' perception of quality instructions, praise and rewards system might influence African American students' achievement in mathematics and science; Teachers' beliefs pertaining to students' background and intellectual ability might influence their educational expectation of African American students and subsequently student achievement in mathematics and science; Teaching strategies such as reviewing, lecturing and using graphing calculators had a positive influence on mathematics achievement while using computers, discussion and using other books than mathematics textbooks had negative influences on mathematics achievement; Computer use in science had positive influence on science achievement while homework had a positive influence on mathematics and science achievement among African American students. The application of these findings in settings populated with African American students might be important in increasing mathematics and science achievement among them.

How Students View the Boundaries Between Their Science and Religious Education Concerning the Origins of Life and the Universe

PubMed Central

BROCK, RICHARD; TABER, KEITH S.; RIGA, FRAN

2016-01-01

ABSTRACT Internationally in secondary schools, lessons are typically taught by subject specialists, raising the question of how to accommodate teaching which bridges the sciences and humanities. This is the first study to look at how students make sense of the teaching they receive in two subjects (science and religious education [RE]) when one subject's curriculum explicitly refers to cross‐disciplinary study and the other does not. Interviews with 61 students in seven schools in England suggested that students perceive a permeable boundary between science and their learning in science lessons and also a permeable boundary between religion and their learning in RE lessons, yet perceive a firm boundary between science lessons and RE lessons. We concluded that it is unreasonable to expect students to transfer instruction about cross‐disciplinary perspectives across such impermeable subject boundaries. Finally, we consider the implications of these findings for the successful management of cross‐disciplinary education. PMID:27812226

How Students View the Boundaries Between Their Science and Religious Education Concerning the Origins of Life and the Universe.

PubMed

Billingsley, Berry; Brock, Richard; Taber, Keith S; Riga, Fran

2016-05-01

Internationally in secondary schools, lessons are typically taught by subject specialists, raising the question of how to accommodate teaching which bridges the sciences and humanities. This is the first study to look at how students make sense of the teaching they receive in two subjects (science and religious education [RE]) when one subject's curriculum explicitly refers to cross-disciplinary study and the other does not. Interviews with 61 students in seven schools in England suggested that students perceive a permeable boundary between science and their learning in science lessons and also a permeable boundary between religion and their learning in RE lessons, yet perceive a firm boundary between science lessons and RE lessons. We concluded that it is unreasonable to expect students to transfer instruction about cross-disciplinary perspectives across such impermeable subject boundaries. Finally, we consider the implications of these findings for the successful management of cross-disciplinary education.

Physics and Science Education through Project Activities of University Students and Regional Collaboration

NASA Astrophysics Data System (ADS)

Hasegawa, Makoto

A project team "Rika-Kobo" organized by university students has actively performed various science education activities at primary and secondary schools and other educational facilities as well as in science events in local areas. The activities of this student project team are related to various fields of physics and sciences. In order to provide more attractive activities, the student members prepare original experiment tools and easily-understandable presentation and explanation. Through such activities, the members can have opportunities of obtaining new knowledge and refreshing their already-obtained understandings in related fields of physics and sciences. They can also have chances of improving their skills and abilities such as presentation, problem-finding and solving, which are useful for realizing their career development. The activities of the student project team have been also welcomed by children, parents, teachers and other people in local areas because the activities provide them with opportunities of knowing and learning new knowledge in physics and sciences.

Guidebook to excellence, 1994: A directory of federal resources for mathematics and science education improvement

DOE Office of Scientific and Technical Information (OSTI.GOV)

Not Available

1994-04-01

The purpose of this Guidebook to Excellence is to assist educators, parents, and students across the country in attaining the National Education Goals, particularly Goal 4: By the year 2000, US students will be first in the world in science and mathematics achievement. The Guidebook will help make the education community aware of the Federal Government`s extensive commitment to mathematics and science education. Sixteen Federal agencies collaborated with the Eisenhower National Clearinghouse to produce this publication. Although the Guidebook contains valuable information for anyone involved in mathematics and science education, its focus is on the elementary and secondary levels.

Making connections: Exploring student agency in a science classroom in India

NASA Astrophysics Data System (ADS)

Sharma, Ajay

India has been a free country for more than half a century now. In this time, the state has succeeded to a large extent in providing universal access to at least elementary education to all the citizens. However, the quality of education provided in state-run schools remains far removed from the ideals endorsed in policy documents. The vast majority of Indian poor, especially in rural areas, depend upon state-run schools for access to education. However, the low quality of education provided in these schools militates against their hopes and efforts for securing a better future through education. Undergirded by concerns over the raw deal students of government run schools get in rural India, this study is an ethnographic exploration of science learning in a rural middle school classroom in India. The study was conducted in the government middle school at the village Rajkheda, in the Hoshangabad district of the state of Madhya Pradesh, India. The study focused on the nature and scope of student participation in a middle school science classroom of rural school in India. Taking a socio-cultural perspective, it explored student participation in science classroom as engagement in a socioculturally mediated dialogue with the natural and the social world. Thus, two parallel yet intersecting themes run through the narrative this study presents. On one hand, it focuses on students' efforts to both learn and survive science as taught in that school. While on the other, it details the nature of their engagement with and knowledge of their immediate material world. The study shows that through active engagement with their local material and social world, students of the 8th grade had acquired an extensive, useful and situated funds of experiential knowledge that enabled them to enact their agency in the material world around them. This knowledge revealed itself differently in different contexts. Their knowledge representations about school science and the material world were situated improvised responses to ongoing dialogues that enabled them to survive, negotiate and maneuver their way through their immediate social world. Inside the science classroom, students negotiated their roles as students in a varied, improvised, and contingent manner. Further, whenever the constraints and affordances of the local situation and the resources at their disposal made it feasible, students exercised their social agency to selectively appropriate school science discourse for their own out-of-school purposes. The science teacher did much to encourage this contingent and situated emergence of students' social agency. However, the extant teacher professional and school science discourses allowed him to achieve only limited success in making science more meaningful and relevant to the students. The study reveals that though much has been accomplished to provide universal access to elementary education in India, the science instruction still persists along traditional lines. Thus, the state is still far from providing access to the type of science education it advocates in its national policy documents. The study urges the state to fulfill its constitutional obligations by providing a science education that enables students to not only build a better future for themselves, but also work for peaceful and progressive social change. The study recommends informed bricolage as a goal for teacher education and professional development.

Does STES-Oriented Science Education Promote 10th-Grade Students' Decision-Making Capability?

NASA Astrophysics Data System (ADS)

Levy Nahum, Tami; Ben-Chaim, David; Azaiza, Ibtesam; Herskovitz, Orit; Zoller, Uri

2010-07-01

Today's society is continuously coping with sustainability-related complex issues in the Science-Technology-Environment-Society (STES) interfaces. In those contexts, the need and relevance of the development of students' higher-order cognitive skills (HOCS) such as question-asking, critical-thinking, problem-solving and decision-making capabilities within science teaching have been argued by several science educators for decades. Three main objectives guided this study: (1) to establish "base lines" for HOCS capabilities of 10th grade students (n = 264) in the Israeli educational system; (2) to delineate within this population, two different groups with respect to their decision-making capability, science-oriented (n = 142) and non-science (n = 122) students, Groups A and B, respectively; and (3) to assess the pre-post development/change of students' decision-making capabilities via STES-oriented HOCS-promoting curricular modules entitled Science, Technology and Environment in Modern Society (STEMS). A specially developed and validated decision-making questionnaire was used for obtaining a research-based response to the guiding research questions. Our findings suggest that a long-term persistent application of purposed decision-making, promoting teaching strategies, is needed in order to succeed in affecting, positively, high-school students' decision-making ability. The need for science teachers' involvement in the development of their students' HOCS capabilities is thus apparent.

A Comparison of Student Teachers' Beliefs from Four Different Science Teaching Domains Using a Mixed Methods Design

NASA Astrophysics Data System (ADS)

Markic, Silvija; Eilks, Ingo

2012-03-01

The study presented in this paper integrates data from four combined research studies, which are both qualitative and quantitative in nature. The studies describe freshman science student teachers' beliefs about teaching and learning. These freshmen intend to become teachers in Germany in one of four science teaching domains (secondary biology, chemistry, and physics, respectively, as well as primary school science). The qualitative data from the first study are based on student teachers' drawings of themselves in teaching situations. It was formulated using Grounded Theory to test three scales: Beliefs about Classroom Organisation, Beliefs about Teaching Objectives, and Epistemological Beliefs. Three further quantitative studies give insight into student teachers' curricular beliefs, their beliefs about the nature of science itself, and about the student- and/or teacher-centredness of science teaching. This paper describes a design to integrate all these data within a mixed methods framework. The aim of the current study is to describe a broad, triangulated picture of freshman science student teachers' beliefs about teaching and learning within their respective science teaching domain. The study reveals clear tendencies between the sub-groups. The results suggest that freshman chemistry and-even more pronouncedly-freshman physics student teachers profess quite traditional beliefs about science teaching and learning. Biology and primary school student teachers express beliefs about their subjects which are more in line with modern educational theory. The mixed methods approach towards the student teachers' beliefs is reflected upon and implications for science education and science teacher education are discussed.

The Student Voice: A Study of Learning Experiences Enriched by Mobile Technologies

ERIC Educational Resources Information Center

Nelson, Laura L.

2012-01-01

This study reports the opinions of Illinois Math and Science Academy (IMSA) students to facilitate positive change in our educational system as we prepare our students for a competitive global economy. IMSA is a recognized leader in math and science education through exemplary inquiry-based methodologies. Students need new skills for citizenship,…

Mathematics and Science Curricula in Elementary and Secondary Education for American Indian and Alaska Native Students.

ERIC Educational Resources Information Center

Preston, Vera

Issues related to the improvement of mathematics and science education pertain to Native students as well as to the general population. Native students are most successful at tasks that use visual and spatial abilities and that involve simultaneous processing. Instruction should build on Native students' strengths. Experiential learning and…

Assessing Student Peer Dialogue in Collaborative Settings: A Window into Student Reasoning

ERIC Educational Resources Information Center

Stone, Antoinette

2013-01-01

The use of science classroom discourse analysis as a way to gain a better understanding of various student cognitive outcomes has a rich history in Science Education in general and Physics Education Research (PER) in particular. When students talk to each other in a collaborative peer instruction environment, such as in the CLASP classes…

Integrating local environmental research into K-12 science classrooms and the value of graduate student-educator partnerships

NASA Astrophysics Data System (ADS)

Ward, N. D.; Petrik-Finley, R.

2015-12-01

Collaboration between researchers and K-12 educators enables an invaluable exchange of teaching philosophies and educational tools. Programs that partner graduate students with K-12 educators serve the dual purpose of training future educators and providing K-12 students with unique opportunities and perspectives. The benefits of this type of partnership include providing students with enhanced educational experiences and positive student-mentor relationships, training STEM graduate students in effective teaching strategies, and providing teachers with a firsthand resource for scientific information and novel educational materials. Many high school students have had little exposure to science beyond the classroom. Frequent interactions with "real-life" scientists can help make science more approachable and is an effective strategy for promoting science as a career. Here I describe my experiences and several lessons designed as a NSK GK-12 fellow. For example, a month-long unit on biogeochemical principles was framed as a crime scene investigation of a fish kill event in Hood Canal, Washington, in which students were given additional pieces of evidence to solve the mystery as they satisfied checkpoints in their understanding of key concepts. The evidence pieces included scientific plots, maps, datasets, and laboratory exercises. A clear benefit of this investigation-style unit is that students were able to learn the material at their individual pace. This structure allowed for a streamlined integration of differentiated materials such as simplified background readings or visual learning aids for struggling students or more detailed news articles and primary literature for more advanced students. Although the NSF GK-12 program has been archived, educators and researchers should pursue new partnerships, leveraging local and state-level STEM outreach programs with the goal of increasing national exposure of the societal benefits of such synergistic activities.

Improving Science Teacher Preparation through the APS PhysTEC and NSF Noyce Programs

NASA Astrophysics Data System (ADS)

Williams, Tasha; Tyler, Micheal; van Duzor, Andrea; Sabella, Mel

2013-03-01

Central to the recruitment of students into science teaching at a school like CSU, is a focus on the professional nature of teaching. The purpose of this focus is twofold: it serves to change student perceptions about teaching and it prepares students to become teachers who value continued professional development and value the science education research literature. The Noyce and PhysTEC programs at CSU place the professional nature of teaching front and center by involving students in education research projects, paid internships, attendance at conferences, and participation in a new Teacher Immersion Institute and a Science Education Journal Reading Class. This poster will focus on specific components of our teacher preparation program that were developed through these two programs. In addition we will describe how these new components provide students with diverse experiences in the teaching of science to students in the urban school district. Supported by the NSF Noyce Program (0833251) and the APS PhysTEC Program.

An Analysis of Teacher Discourse that Introduces Real Science Activities to High School Students

ERIC Educational Resources Information Center

Hsu, Pei-Ling; Roth, Wolff-Michael

2009-01-01

Most academic science educators encourage teachers to provide their students with access to more authentic science activities. What can and do teachers say to increase students' interests in participating in opportunities to do real science? What are the discursive "resources" they draw on to introduce authentic science to students? The purpose of…

Student science achievement and the integration of Indigenous knowledge on standardized tests

NASA Astrophysics Data System (ADS)

Dupuis, Juliann; Abrams, Eleanor

2017-09-01

In this article, we examine how American Indian students in Montana performed on standardized state science assessments when a small number of test items based upon traditional science knowledge from a cultural curriculum, "Indian Education for All", were included. Montana is the first state in the US to mandate the use of a culturally relevant curriculum in all schools and to incorporate this curriculum into a portion of the standardized assessment items. This study compares White and American Indian student test scores on these particular test items to determine how White and American Indian students perform on culturally relevant test items compared to traditional standard science test items. The connections between student achievement on adapted culturally relevant science test items versus traditional items brings valuable insights to the fields of science education, research on student assessments, and Indigenous studies.

A Community of Scientists and Educators: The Compass Project at UC Berkeley

NASA Astrophysics Data System (ADS)

Roth, Nathaniel; Schwab, Josiah

2016-01-01

The Berkeley Compass Project is a self-formed group of graduate and undergraduate students in the physical sciences at the University of California, Berkeley. Its goals are to improve undergraduate physics education, provide opportunities for professional development, and increase retention of students from populations underrepresented in the physical sciences. For undergraduate students, the core Compass experience consists of a summer program and several seminar courses. These programs are designed to foster a diverse, collaborative student community in which students engage in authentic research practices and regular self-reflection. Graduate students, together with upper-level undergraduates, design and run all Compass programs. Compass strives to incorporate best practices from the science education literature. Experiences in Compass leave participants poised to be successful students researchers, teachers, and mentors.

The Wow-Effect in Science Teacher Education

ERIC Educational Resources Information Center

Kamstrupp, Anne Katrine

2016-01-01

This article explores the "wow-effect" as a phenomenon in science teacher education. Through ethnographic fieldwork at a teachers' college in Denmark, the author encounters a phenomenon enacted in a particular way of teaching that "wows" the students. The students are in the process of becoming natural science/technology and…

Science for All Cultures: A Collection of Articles from NSTA's Journals.

ERIC Educational Resources Information Center

Carey, Shelley J., Comp.

Multicultural science education provides equal educational opportunities for all students to learn and enjoy science. These opportunities are predicated upon a respect for the customs, mores, and beliefs applicable to students' cultures. The articles in this book, authored by individuals of culturally diverse backgrounds, present several cogent…

University and Elementary School Perspectives of Ideal Elementary Science Teacher Knowledge, Skills, and Dispositions

NASA Astrophysics Data System (ADS)

Sewart, Bethany Bianca

Teacher education knowledge, skills, and dispositions have recently become a well-discussed topic among education scholars around the nation, mainly due to its attention by the National Council for Accreditation of Teacher Education (NCATE) over the past few years. Accrediting agencies, such as NCATE and the Interstate New Teacher and Assessment and Support Consortium (INTASC), have sought to improve the quality of teacher education programs by examining knowledge, skills, and dispositions as factors in preparing highly-qualified teachers. There is a paucity of research examining these factors for elementary science teachers. Because these factors influence instruction, and students are behind in scientific and mathematical knowledge, elementary science teachers should be studied. Teacher knowledge, skills, and dispositions should be further researched in order to ultimately increase the quality of teachers and teacher education programs. In this particular case, by determining what schools of education and public schools deem important knowledge, skills, and dispositions needed to teach science, higher education institutions and schools can collaborate to further educate these students and foster the necessary qualities needed to teach effectively. The study of knowledge, skills, and dispositions is crucial to nurturing effective teaching within the classroom. Results from this study demonstrated that there were prominent knowledge, skills, and dispositions identified by teachers, administrators, and science teacher educators as important for effective teaching of elementary science. These characteristics included: a willingness to learn, or open-mindedness; content knowledge; planning, organization, and preparation; significance of teaching science; and science-related assessment strategies. Interestingly, administrators in the study responded differently than their counterparts in the following areas: their self-evaluation of teacher effectiveness; how the teaching of science is valued; the best approach to science teaching; and planning for science instruction. When asked of their teaching effectiveness while teaching science, principals referred to enjoying science teaching and improving their practice, while teachers and science teacher educators discussed content knowledge. Administrators valued conducting experiments and hands-on science while teaching science, while their educational counterparts valued creating student connections and providing real-life applications to science for students. In their professional opinions, administrators preferred a hands-on approach to science teaching. Teachers and science teacher educators stated that they view scientific inquiry, exploration, and discovery as effective approaches to teaching within their classrooms. Administrators predicted that teachers would state that lack of resources affects their lesson planning in science. However, teachers and science teacher educators asserted that taking time to plan for science instruction was most important.

National Science Education Standards.

ERIC Educational Resources Information Center

National Academy of Sciences - National Research Council, Washington, DC.

The National Science Education Standards present a vision of a scientifically literate populace. The standards outline what students need to know, understand, and be able to do to be scientifically literate at different grade levels. They describe an educational system in which all students demonstrate high levels of performance, teachers are…

Inquiry and Flow in Science Education

ERIC Educational Resources Information Center

Gyllenpalm, Jakob

2018-01-01

Ellwood's and Abrams's paper, "Students's social interaction in inquiry-based science education: how experiences of flow can increase motivation and achievement," describes two groups of students and their experiences in an extended inquiry unit. For one of these, the Off-Campus group, several educational aspects were enhanced compared…

Assessing Attitudes Towards Science During an Adaptive Online Astrobiology Course: Comparing Online and On-Campus Undergraduates

NASA Astrophysics Data System (ADS)

Perera, Viranga; Mead, Chris; Buxner, Sanlyn; Horodyskyj, Lev; Semken, Steven; Lopatto, David; Anbar, Ariel

2016-10-01

General-education Science, Technology, Engineering, and Mathematics (STEM) courses are accepted as essential to a college education. An often cited reason is to train a scientifically literate populace who can think critically and make informed decisions about complex issues such as climate change, health care, and atomic energy. Goals of these STEM courses, therefore, go beyond content knowledge to include generating positive attitudes towards science, developing competence in evaluating scientific information in everyday life and understanding the nature of science. To gauge if such non-content learning outcomes are being met in our course, an online astrobiology course called Habitable Worlds, we administered the Classroom Undergraduate Research Experience (CURE) survey to students. The survey was administered before and after completion of the course for three semesters starting with the Fall 2014 semester and ending with the Fall 2015 semester (N = 774). A factor analysis indicated three factors on attitudes: toward science education, toward the interconnectedness of science with non-science fields, and toward the nature of science. Here we present some differences between students enrolled in online degree programs (o-course) and those enrolled in traditional undergraduate programs (i-course). While mean course grades were similar, changes in attitudes toward science differ significantly between o-course and i-course students. The o-course students began the course with more positive attitudes across all three factors than the i-course students. Their attitudes toward science education improved during the course, while the i-course students showed no change. Attitudes toward the other two factors declined in both populations during the course, but declines were smaller among o-course students. These differences may indicate lesser intrinsic motivation among the i-course students. The CURE survey has not been used before in an online course; therefore, we will continue to examine factor analysis, student interviews, and expert review data to validate it for online science courses.

The Impact of Wireless Keypads in an Interprofessional Education Context with Health Science Students

ERIC Educational Resources Information Center

Williams, Brett; Lewis, Belinda; Boyle, Malcolm; Brown, Ted

2011-01-01

The aim of this study was to identify if wireless keypads could facilitate interprofessional interaction among undergraduate paramedic, nursing, occupational therapy, physiotherapy, health science, social work and midwifery students. Secondary research aims included the examination of students' perceptions of interprofessional education and how…

Students' Risk Perceptions of Nanotechnology Applications: Implications for Science Education

ERIC Educational Resources Information Center

Gardner, Grant; Jones, Gail; Taylor, Amy; Forrester, Jennifer; Robertson, Laura

2010-01-01

Scientific literacy as a goal of a science education reform remains an important discourse in the research literature and is a key component of students' understanding and acceptance of emergent technologies like nanotechnology. This manuscript focuses on undergraduate engineering students' perceptions of the risks and benefits posed by…

Methods and Strategies: Science Success for Students with Special Needs

ERIC Educational Resources Information Center

Steele, Marcee M.

2007-01-01

Recent special education legislation such as the Individuals with Disabilities Act (IDEA) emphasizes the placement of students with mild disabilities in the general education classroom. Therefore, students with learning, behavior, and communicating disorders will typically be learning science from classroom teachers rather than in separate special…

Students' Understanding of the Particulate Nature of Matter

ERIC Educational Resources Information Center

Singer, Jonathan E.; Tal, Revital; Wu, Hsin-Kai

2003-01-01

The particulate nature of matter is identified in science education standards as one of the fundamental concepts that students should understand at the middle school level. However, science education research in indicates that secondary school students have difficulties understanding the structure of matter. The purpose of the study is to describe…

Developing Students' Futures Thinking in Science Education

ERIC Educational Resources Information Center

Jones, Alister; Buntting, Cathy; Hipkins, Rose; McKim, Anne; Conner, Lindsey; Saunders, Kathy

2012-01-01

Futures thinking involves a structured exploration into how society and its physical and cultural environment could be shaped in the future. In science education, an exploration of socio-scientific issues offers significant scope for including such futures thinking. Arguments for doing so include increasing student engagement, developing students'…

Moral Perceptions of College Science Students

NASA Astrophysics Data System (ADS)

Nolan, Eric

This thesis argues that college-level science education is in need of explicit moral focuses centered on society's use of scientific knowledge. Many benefits come with scientific advancements but unfortunately the misuse of scientific knowledge has led to planetary crises that should be a concern for all who inhabit the Earth (e.g., climate change). The teaching of the misuses of science is often left out of college science classrooms and the purpose of this thesis is to see what effect college science students' education has had on their moral perception of these pressing issues. To evaluate how college science students morally perceive these global issues within their educational experiences, two focus group interviews were conducted and analyzed. Students converged on three themes when thinking of society's misuse of science: 1) there is something wrong with the way science is communicated between science and non-science groups; 2) misusing science for private benefit is not right, and 3) it is important for people to comprehend sustainability along different scales of understanding and action. This thesis concludes that although to some extent students were familiar with moral features that stem from society's misuse of science, they did not attribute their learning of those features from any of their required coursework within their programs of study.

High school science fair and research integrity.

PubMed

Grinnell, Frederick; Dalley, Simon; Shepherd, Karen; Reisch, Joan

2017-01-01

Research misconduct has become an important matter of concern in the scientific community. The extent to which such behavior occurs early in science education has received little attention. In the current study, using the web-based data collection program REDCap, we obtained responses to an anonymous and voluntary survey about science fair from 65 high school students who recently competed in the Dallas Regional Science and Engineering Fair and from 237 STEM-track, post-high school students (undergraduates, 1st year medical students, and 1st year biomedical graduate students) doing research at UT Southwestern Medical Center. Of the post-high school students, 24% had competed in science fair during their high school education. Science fair experience was similar overall for the local cohort of Dallas regional students and the more diverse state/national cohort of post-high school students. Only one student out of 122 reported research misconduct, in his case making up the data. Unexpectedly, post-high school students who did not participate in science fair anticipated that carrying out science fair would be much more difficult than actually was the case, and 22% of the post-high school students anticipated that science fair participants would resort to research misconduct to overcome obstacles. No gender-based differences between students' science fair experiences or expectations were evident.

Religion as a Support Factor for Women of Color Pursuing Science Degrees: Implications for Science Teacher Educators

NASA Astrophysics Data System (ADS)

Ceglie, Robert

2013-02-01

This study explores the influence of religion as a support factor for a group of Latina and African-American women majoring in science. The current project is a part of a larger study that investigated persistence factors of underrepresented woman who were enrolled as science majors at United States colleges and universities. This paper focuses on one theme that emerged among six participants who disclosed how religion was a significant influence on their persistence in science fields. The strength and support offered by religious values is certainly not specific to science content; however, the support received from their beliefs highlights a potential area for further exploration. Given the importance of increasing participation by students from diverse backgrounds into science fields, it is critical to recognize how some of these differences may be the key factors influencing the way these students look at the world. This study offers evidence that science educators need to consider what role religious beliefs have for students who may be considering science or science education as a future career, particularly for those students from underrepresented groups.

Closing the race and gender gaps in computer science education

NASA Astrophysics Data System (ADS)

Robinson, John Henry

Life in a technological society brings new paradigms and pressures to bear on education. These pressures are magnified for underrepresented students and must be addressed if they are to play a vital part in society. Educational pipelines need to be established to provide at risk students with the means and opportunity to succeed in science, technology, engineering, and mathematics (STEM) majors. STEM educational pipelines are programs consisting of components that seek to facilitate students' completion of a college degree by providing access to higher education, intervention, mentoring, support infrastructure, and programs that encourage academic success. Successes in the STEM professions mean that more educators, scientist, engineers, and researchers will be available to add diversity to the professions and to provide role models for future generations. The issues that the educational pipelines must address are improving at risk groups' perceptions and awareness of the math, science, and engineering professions. Additionally, the educational pipelines must provide intervention in math preparation, overcome gender and race socialization, and provide mentors and counseling to help students achieve better self perceptions and provide positive role models. This study was designed to explorer the underrepresentation of minorities and women in the computer science major at Rowan University through a multilayered action research methodology. The purpose of this research study was to define and understand the needs of underrepresented students in computer science, to examine current policies and enrollment data for Rowan University, to develop a historical profile of the Computer Science program from the standpoint of ethnicity and gender enrollment to ascertain trends in students' choice of computer science as a major, and an attempt to determine if raising awareness about computer science for incoming freshmen, and providing an alternate route into the computer science major will entice more women and minorities to pursue a degree in computer science at Rowan University. Finally, this study examined my espoused leadership theories and my leadership theories in use through reflective practices as I progressed through the cycles of this project. The outcomes of this study indicated a large downward trend in women enrollment in computer science and a relatively flat trend in minority enrollment. The enrollment data at Rowan University was found to follow a nationwide trend for underrepresented students' enrollment in STEM majors. The study also indicated that students' mental models are based upon their race and gender socialization and their understanding of the world and society. The mental models were shown to play a large role in the students' choice of major. Finally, a computer science pipeline was designed and piloted as part of this study in an attempt to entice more students into the major and facilitate their success. Additionally, the mental models of the participants were challenged through interactions to make them aware of what possibilities are available with a degree in computer science. The entire study was wrapped in my leadership, which was practiced and studied over the course of this work.

A case study: The original intentions of the designers of the science content standards

NASA Astrophysics Data System (ADS)

Eucker, Penelope Hudson

This case study research examined the original intentions of the designers of the science content standards in the historical context of educational reforms and legislation. The content standards are the keystone of standards-based education. Originally, national science content standards were part of a cohesive program to increase the occurrence of quality science K--12. Through assessment policies set into motion by state and federal legislation, science curriculum is increasingly fixed and standardized. Scripting teachers is becoming more common. Unintended outcomes of standards-based education are prevalent in all classrooms. Recording the original intentions of the designers of the science content standards in a historical context is significant to document their beliefs and purposes. The shared beliefs of the six scholars included: (a) science had become overstuffed curriculum with students learning very few concepts; (b) science teachers required assistance to decide which concepts are most important for students to learn; (c) standards-based education will most likely endure for a very long time; (d) science is a specific way of knowing and inquiry must be part of science instruction; (e) few teachers teach to the science content standards. The scholars disagreed about whether the power to decide what to teach had moved from the classroom to the legislators and if standards-based education has preferentially helped some groups of students while diminishing the science education of others. Implications from the findings reveal the tension between a defined science content and the resultant assessment template that further trims the instructional range offered. Foreshadowing of increasing trend toward profits made from testing companies as state and federal legislation increase mandated assessments. Significantly, the educational research that clearly demonstrate many pathways lead to educated students such as the Eight-Year Study were suppressed in favor of the bi-partisan supported standards-based education. One of the stated goals of standards-based education was equity. With documented corrupted curriculum sometimes devoid of all science, equity remains an elusive goal. This research documents the original intentions of the designers of the science content standards. The story continues to unfold with new state and federal legislation as teachers attempt to teach the mandated content standards.

Preparing Science Teachers: Strong Emphasis on Science Content Course Work in a Master's Program in Education

NASA Astrophysics Data System (ADS)

Ajhar, Edward A.; Blackwell, E.; Quesada, D.

2010-05-01

In South Florida, science teacher preparation is often weak as a shortage of science teachers often prompts administrators to assign teachers to science classes just to cover the classroom needs. This results is poor preparation of students for college science course work, which, in turn, causes the next generation of science teachers to be even weaker than the first. This cycle must be broken in order to prepare better students in the sciences. At St. Thomas University in Miami Gardens, Florida, our School of Science has teamed with our Institute for Education to create a program to alleviate this problem: A Master of Science in Education with a Concentration in Earth/Space Science. The Master's program consists of 36 total credits. Half the curriculum consists of traditional educational foundation and instructional leadership courses while the other half is focused on Earth and Space Science content courses. The content area of 18 credits also provides a separate certificate program. Although traditional high school science education places a heavy emphasis on Earth Science, this program expands that emphasis to include the broader context of astronomy, astrophysics, astrobiology, planetary science, and the practice and philosophy of science. From this contextual basis the teacher is better prepared to educate and motivate middle and high school students in all areas of the physical sciences. Because hands-on experience is especially valuable to educators, our program uses materials and equipment including small optical telescopes (Galileoscopes), several 8-in and 14-in Celestron and Meade reflectors, and a Small Radio Telescope installed on site. (Partial funding provided by the US Department of Education through Minority Science and Engineering Improvement Program grant P120A050062.)

The impact of the inclusion of students with handicaps and disabilities in the regular education science classroom

NASA Astrophysics Data System (ADS)

Donald, Cathey Nolan

This study was conducted to determine the impact of the inclusion of students with handicaps and disabilities in the regular education science classroom. Surveys were mailed to the members of the Alabama Science Teachers Association to obtain information from teachers in inclusive classrooms. Survey responses from teachers provide insight into these classrooms. This study reports the results of the teachers surveyed. Results indicate multiple changes occur in the educational opportunities presented to regular education students when students with handicaps and disabilities are included in the regular science classroom. Responding teachers (60%) report omitting activities that formerly provided experiences for students, such as laboratory activities using dangerous materials, field activities, and some group activities. Also omitted, in many instances (64.1%), are skill building opportunities of word problems and higher order thinking skills. Regular education students participate in classes where discipline problems related to included students are reported as the teachers most time consuming task. In these classrooms, directions are repeated frequently, reteaching of material already taught occurs, and the pace of instruction has been slowed. These changes to the regular classroom occur across school levels. Many teachers (44.9%) report they do not see benefits associated with the inclusion of students with special needs in the regular classroom.

Interactive Teaching as a Recruitment and Training Tool for K-12 Science Teachers

NASA Astrophysics Data System (ADS)

Rosenberg, J. L.

2004-12-01

The Science, Technology, Engineering, and Mathematics Teacher Preparation (STEMTP) program at the University of Colorado has been designed to recruit and train prospective K-12 science teachers while improving student learning through interactive teaching. The program has four key goals: (1) recruit undergraduate students into K-12 science education, (2) provide these prospective teachers with hands-on experience in an interactive teaching pedagogy, (3) create an intergrated program designed to support (educationally, socially, and financially) and engage these prospective science teachers up until they obtain liscensure and/or their masters degree in education, and (4) improve student learning in large introductory science classes. Currently there are 31 students involved in the program and a total of 72 students have been involved in the year and a half it has been in existence. I will discuss the design of the STEMTP program, the success in recruiting K-12 science teachers, and the affect on student learning in a large lecture class of implementing interactive learning pedagogies by involving these prospective K-12 science teachers. J. L. Rosenberg would like to acknowledge the NSF Astronomy and Astrophysics Fellowship for support for this work. The course transformation project is also supported by grants from the National Science Foundation.

Empowering Rural Appalachian Youth Through Integrated Inquiry-based Earth Science

NASA Astrophysics Data System (ADS)

Cartwright, T. J.; Hogsett, M.

2009-05-01

Science education must be relevant and inspiring to keep students engaged and receptive to learning. Reports suggest that science education reform can be advanced by involving students in active research (NSF 1996). Through a 2-year Geoscience Education award from the National Science Foundation, a program called IDGE (Integrated Design for Geoscience Education) has targeted low-income, under-represented, and minority high school students in rural Appalachia in inquiry-based projects, international collaboration, and an international environmental expedition incorporating the GLOBE program protocols. This program targeted Upward Bound students at Marshall University in Huntington, West Virginia. The Upward Bound is a federally-supported program targeting low-income, under-represented, and minority students for inclusion in a summer academic- enrichment program. IDGE builds on the mission of Upward Bound by encouraging underprivileged students to investigate science and scientific careers. This outreach has proven to be successful in enhancing positive attitudes and understanding about science and increasing the number of students considering science careers. IDGE has found that students must be challenged to observe the world around them and to consider how their decisions affect the future of our planet, thus making geoscience relevant and interesting to the students. By making the geoscience course inquiry-based and incorporating field research that is relevant to local environmental issues, it becomes possible for students to bridge the gap between science in theory and science in practice while remaining engaged. Participants were able to broaden environmental connections through an ecological expedition experience to Costa Rica, serving as an opportunity to broaden the vision of students as members of an international community of learners and scientists through their experiences with a diverse natural environment. This trip, in coordination with the inclusion of scientific instruments such as GPS and probeware, fostered additional student interest in earth science. IDGE has shown to have a lasting effect on the participating students who learn from the experience that science is a dynamic field in need of creative minds who want to make discoveries. Through relevant inquiry, the quality of geoscience instruction is inspiring a new generation of geoscientists. This work was supported in part by the National Science Foundation under award 0735596. Any opinions, findings, conclusions or recommendations expressed in this material are those of the authors and do not necessarily reflect those of the National Science Foundation.

Seeding Science Success: Psychometric Properties of Secondary Science Questionnaire on Students' Self-Concept, Motivation, and Aspirations

ERIC Educational Resources Information Center

Chandrasena, Wanasinghe; Craven, Rhonda G.; Tracey, Danielle; Dillon, Anthony

2014-01-01

Every sphere of life has been revolutionised by science. Thus, science understanding is an increasingly precious resource throughout the world. Despite the widely recognised need for better science education, the percentage of school students studying science is particularly low, and the numbers of students pursuing science continue to decline…

Impact of a Scientist-Teacher Collaborative Model on Students, Teachers, and Scientists

NASA Astrophysics Data System (ADS)

Shein, Paichi Pat; Tsai, Chun-Yen

2015-09-01

Collaborations between the K-12 teachers and higher education or professional scientists have become a widespread approach to science education reform. Educational funding and efforts have been invested to establish these cross-institutional collaborations in many countries. Since 2006, Taiwan initiated the High Scope Program, a high school science curriculum reform to promote scientific innovation and inquiry through an integration of advanced science and technology in high school science curricula through partnership between high school teachers and higher education scientists and science educators. This study, as part of this governmental effort, a scientist-teacher collaborative model (STCM) was constructed by 8 scientists and 4 teachers to drive an 18-week high school science curriculum reform on environmental education in a public high school. Partnerships between scientists and teachers offer opportunities to strengthen the elements of effective science teaching identified by Shulman and ultimately affect students' learning. Mixed methods research was used for this study. Qualitative methods of interviews were used to understand the impact on the teachers' and scientists' science teaching. A quasi-experimental design was used to understand the impact on students' scientific competency and scientific interest. The findings in this study suggest that the use of the STCM had a medium effect on students' scientific competency and a large effect on students' scientific individual and situational interests. In the interviews, the teachers indicated how the STCM allowed them to improve their content knowledge and pedagogical content knowledge (PCK), and the scientists indicated an increased knowledge of learners, knowledge of curriculum, and PCK.

Exploring the Solar System Activities Outline: Hands-On Planetary Science for Formal Education K-14 and Informal Settings

NASA Technical Reports Server (NTRS)

Allen, J. S.; Tobola, K. W.; Lindstrom, M. L.

2003-01-01

Activities by NASA scientists and teachers focus on integrating Planetary Science activities with existing Earth science, math, and language arts curriculum. The wealth of activities that highlight missions and research pertaining to the exploring the solar system allows educators to choose activities that fit a particular concept or theme within their curriculum. Most of the activities use simple, inexpensive techniques that help students understand the how and why of what scientists are learning about comets, asteroids, meteorites, moons and planets. With these NASA developed activities students experience recent mission information about our solar system such as Mars geology and the search for life using Mars meteorites and robotic data. The Johnson Space Center ARES Education team has compiled a variety of NASA solar system activities to produce an annotated thematic outline useful to classroom educators and informal educators as they teach space science. An important aspect of the outline annotation is that it highlights appropriate science content information and key science and math concepts so educators can easily identify activities that will enhance curriculum development. The outline contains URLs for the activities and NASA educator guides as well as links to NASA mission science and technology. In the informal setting educators can use solar system exploration activities to reinforce learning in association with thematic displays, planetarium programs, youth group gatherings, or community events. Within formal education at the primary level some of the activities are appropriately designed to excite interest and arouse curiosity. Middle school educators will find activities that enhance thematic science and encourage students to think about the scientific process of investigation. Some of the activities offered are appropriate for the upper levels of high school and early college in that they require students to use and analyze data.

Teaching science in museums: The pedagogy and goals of museum educators

NASA Astrophysics Data System (ADS)

Tran, Lynn Uyen

2007-03-01

Museum educators have a longstanding presence in museums and play a significant role in the institutions' educational agenda. However, research on field trips to science museums has predominantly explored teachers' and students' perspectives with little acknowledgment of the museum educators who develop and implement the educational programs the students experience. This study sought to describe instruction undertaken in, and goals driving, science museums' lessons through observations of museum educators followed by conversations with them immediately afterwards. Findings showed the ways in which educators adapted their preplanned lessons to the students' interests, needs, and understanding by manipulating the sequence and timing. The data revealed that, contrary to depictions in the research literature of teaching in museums as didactic and lecture oriented, there was creativity, complexity, and skills involved in teaching science in museums. Finally, the educators' teaching actions were predominantly influenced by their affective goals to nurture interests in science and learning. Although their lessons were ephemeral experiences, these educators operated from a perspective, which regarded a school field trip to the science museum, not as a one-time event, but as part of a continuum of visiting such institutions well beyond school and childhood. These findings have implications for the pedagogical practices employed by museum educators, and the relationship between teachers and educators during school field trips, which are discussed.

Examining Thai high school students' developing STEM projects

NASA Astrophysics Data System (ADS)

Teenoi, Kultida; Siripun, Kulpatsorn; Yuenyong, Chokchai

2018-01-01

Like others, Thailand education strongly focused on STEM education. This paper aimed to examine existing Thai high school students' integrated knowledge about science, technology, engineering, and mathematics (STEM) in their developing science project. The participants included 49 high school students were studying the subject of individual study (IS) in Khon Kaen wittayayon school, Khon Kaen, Thailand. The IS was provided to gradually enhance students to know how to do science project starting from getting start to do science projects, They enrolled to study the individual study of science project for three year in roll. Methodology was qualitative research. Views of students' integrated knowledge about STEM were interpreted through participant observation, interview, and students' science projects. The first author as participant observation has taught this group of students for 3 years. It found that 16 science projects were developed. Views of students' integrated knowledge about STEM could be categorized into three categories. These included (1) completely indicated integration of knowledge about science, technology, engineering, and mathematics, (2) partial indicated integration of knowledge about science, technology, engineering, and mathematics, and (3) no integration. The findings revealed that majority of science projects could be categorized as completely indicated integration of knowledge about science, technology, engineering, and mathematics. The paper suggested some ideas of enhancing students to applying STEM for developing science projects.

An Integrative Cultural Model to better situate marginalized science students in postsecondary science education

NASA Astrophysics Data System (ADS)

Labouta, Hagar Ibrahim; Adams, Jennifer Dawn; Cramb, David Thomas

2018-03-01

In this paper we reflect on the article "I am smart enough to study postsecondary science: a critical discourse analysis of latecomers' identity construction in an online forum", by Phoebe Jackson and Gale Seiler (Cult Stud Sci Educ. https://doi.org/10.1007/s11422-017-9818-0). In their article, the authors did a significant amount of qualitative analysis of a discussion on an online forum by four latecomer students with past negative experiences in science education. The students used this online forum as an out-of-class resource to develop a cultural model based on their ability to ask questions together with solidarity as a new optimistic way to position themselves in science. In this forum, we continue by discussing the identity of marginalized science students in relation to resources available in postsecondary science classes. Recent findings on a successful case of a persistent marginalized science student in spite of prior struggles and failures are introduced. Building on their model and our results, we proposed a new cultural model, emphasizing interaction between inside and outside classroom resources which can further our understanding of the identity of marginalized science students. Exploring this cultural model could better explain drop-outs or engagement of marginalized science students to their study. We, then, used this model to reflect on both current traditional and effective teaching and learning practices truncating or re-enforcing relationships of marginalized students with the learning environment. In this way, we aim to further the discussion initiated by Jackson and Seiler and offer possible frameworks for future research on the interactions between marginalized students with past low achievements and other high and mid achieving students, as well as other interactions between resources inside and outside science postsecondary classrooms.

Inquiry and Groups: Student Interactions in Cooperative Inquiry-Based Science

ERIC Educational Resources Information Center

Woods-McConney, Amanda; Wosnitza, Marold; Sturrock, Keryn L.

2016-01-01

Science education research has recommended cooperative inquiry based science in the primary science context for more than two decades but after more than 20 years, student achievement in science has not substantially improved. This study, through direct observation and analysis, investigated content-related student interactions in an authentic…

Teaching Teachers: Assessing Students as Scientists

ERIC Educational Resources Information Center

Russ, Rosemary S.; Conlin, Luke

2017-01-01

Most elementary science teachers would like to give their students opportunities to do science. The "Next Generation Science Standards" and "A Framework for K-12 Science Education" (NGSS Lead States 2013; NRC 2012) make this goal explicit by requiring that students learn how to engage in the practices of science. Consequently,…

Museums, zoos, and gardens: how formal-informal partnerships can impact urban students' performance in science.

PubMed

Weinstein, Meryle; Whitesell, Emilyn Ruble; Schwartz, Amy Ellen

2014-12-01

Informal science education institutions (ISEIs) are critical partners in public science education, as they support the science efforts of school systems by providing authentic opportunities for scientific inquiry. This study reports findings from an evaluation of urban advantage (UA), a collaboration between the New York City Department of Education and eight ISEIs designed to improve science education in New York City (NYC) middle schools. Now in its 10th year, the program harnesses the resources and expertise of NYC's ISEIs to (a) enhance the science content knowledge of middle school science teachers, (b) develop teachers' skills at using inquiry-based approaches in their classrooms, and (c) improve the science achievement of middle school students. We examine whether the UA program has led to increased student achievement on the eighth-grade New York State standardized science exam for students in participating schools; in supplemental analyses, we examine the effects on longer term (ninth-grade) outcomes. We use a difference-in-differences framework with school fixed effects to estimate the impact of attending a UA school in eighth grade on science achievement. Our key outcome is performance on New York State's eighth-grade intermediate-level science assessment; longer term outcomes include enrollment at specialized science, technology, engineering, and math high schools as well as taking and passing the high school (Regents) science exams. We find that attending a UA school increases student performance on the eighth-grade science exam by approximately 0.05 SD, and there is some evidence of small effects on Regents taking and passing rates. © The Author(s) 2014.

Indigenous and Western Knowledges in Science Education: An Ethnographic Study of Rural and Urban Secondary Schools and Classrooms in Kenya

ERIC Educational Resources Information Center

O'Hern, Darren M.

2010-01-01

In Kenya, indigenous knowledges related to the natural sciences are not considered in the formal science education of secondary students. Despite the prevalence of studies that examine indigenous knowledges in Kenyan school and community contexts, the perspectives of students and teachers concerning indigenous natural science knowledges and their…

Confronting Dilemmas Posed by Three-Dimensional Classroom Assessment: Introduction to a Virtual Issue of "Science Education"

ERIC Educational Resources Information Center

Furtak, Erin Marie

2017-01-01

Wide-scale adoption of the "Next Generation Science Standards" has raised new challenges for classroom teachers as they learn not only how to engage students in this new vision of science learning, but also how to assess students' engagement in that learning. This paper introduces a virtual special issue of "Science Education"…

Social Justice, Place, and Equitable Science Education: Broadening Urban Students' Opportunities to Learn

ERIC Educational Resources Information Center

Leonard, Jacqueline; Chamberlin, Scott A.; Johnson, Joy B.; Verma, Geeta

2016-01-01

In this paper, results from a 2-year informal science education study are presented. Children (aged 8-12) in this study participated in multi-aged groups to learn science within the context of paleontology and climate change. The goals of the project were to increase science content knowledge among underrepresented minority students and to enhance…

Designing a Science Curriculum Fit for Purpose

ERIC Educational Resources Information Center

Millar, Robin

2014-01-01

The science curriculum to age 16 should be judged on how well it meets the needs of students who progress to A-level science courses and those (a larger number) who do not. To address the diversity of students' interests and aspirations, we need a clear view of the purposes of science education rooted in a view of the purposes of education itself.…

Engaging Students with the Nature of Science and the Nature of Technology by Modeling the Work of Scientists

ERIC Educational Resources Information Center

Kruse, Jerrid W.; Wilcox, Jesse L.

2013-01-01

Just as science education is too often limited to the acquisition of facts, technology education is too often limited to proficient use of technology. Neither of these goals fully realize a robust definition of science and technology literacy. To achieve greater science and technology literacy, students must understand the natures of both science…

Increasing Internal Stakeholder Consensus about a University Science Center's Outreach Policies and Procedures

ERIC Educational Resources Information Center

Fisher, Richard D.

2013-01-01

For decades the United States has tried to increase the number of students pursuing science, technology, engineering, and mathematics (STEM) education and careers. Educators and policy makers continue to seek strategies to increase the number of students in the STEM education pipeline. Public institutions of higher education are involved in this…

Fermilab Education Office Registration

Science.gov Websites

Games Ever! Your Own!, Science Adventure Students July 9-13, 2018 The Forces are with You!, Science Adventure Students July 14, 2018 Games, Magic and the Brain, Science Adventure Students July 15, 2018 Get to

A Review of Relationship between Prospective Science Teachers' Attitudes towards Science Education and Their Self-Efficacy

ERIC Educational Resources Information Center

Türer, Betül; Kunt, Halil

2015-01-01

In this research, we aim to review relationship between prospective science teachers' attitudes against science education (physics, chemistry, biology, laboratory) and their self-efficacy. Population of the research constitutes 497 students studying Science Education in Department of Elementary Education in Celal Bayar University Faculty of…

Identifying Teacher Needs for Promoting Education through Science as a Paradigm Shift in Science Education

ERIC Educational Resources Information Center

Holbrook, J.; Rannikmae, M.; Valdmann, A.

2014-01-01

This paper identifies an "education through science" philosophy for school science teaching at the secondary level and determines its interrelationship with approaches to student acquisition of key educational competences and the identification of teacher needs to promote meaningful learning during science lessons. Based on the…

An empirical examination of the effects of family commitment in education on student achievement in seventh grade science

NASA Astrophysics Data System (ADS)

Wang, Jianjun; Wildman, Louis

A national data base from the Longitudinal Study of American Youth (LSAY) was employed to examine the effects of family commitment in education on student achievement in seventh grade science. The backward elimination procedure in the Statistical Analysis System (SAS) was adopted in this study to select significant variables of family commitment at = .05. The results show that around 22% of the variance in student science achievement can be explained by the selected significant LSAY variables. An analysis of the impact of family commitment seems to indicate that parental education and encouragement are important factors in the improvement of student achievement. However, educators, including school personnel and parents, should exercise caution regarding how they help students with their homework and how they reward students for good grades.Received: 14 June 1994; Revised: 31 October 1994;

A community of educators: professional development for graduate students within the Berkeley Compass Project

NASA Astrophysics Data System (ADS)

Schwab, Josiah; Roth, Nathaniel; Berkeley Compass Project

2015-01-01

The Berkeley Compass Project is a self-formed group of graduate and undergraduate students in the physical sciences at UC Berkeley. Our goals are to improve undergraduate physics education, provide opportunities for professional development, and increase retention of students from populations typically underrepresented in the physical sciences. Graduate students, together with upper-level undergraduates, design and run all Compass programs. We strive to create a community of educators that incorporates best practices from the science education literature. Along the way, we develop experience in curriculum development, fundraising, grant writing, interfacing with university administration, and other aspects of running an effective organization. Our experience in Compass leaves us better poised to be successful researchers, teachers, and mentors.

Social Media in Health Science Education: An International Survey

PubMed Central

Cutts, Emily; Kavikondala, Sushma; Salcedo, Alejandra; D'Souza, Karan; Hernandez-Torre, Martin; Anderson, Claire; Tiwari, Agnes; Ho, Kendall; Last, Jason

2017-01-01

Background Social media is an asset that higher education students can use for an array of purposes. Studies have shown the merits of social media use in educational settings; however, its adoption in health science education has been slow, and the contributing reasons remain unclear. Objective This multidisciplinary study aimed to examine health science students’ opinions on the use of social media in health science education and identify factors that may discourage its use. Methods Data were collected from the Universitas 21 “Use of social media in health education” survey, distributed electronically among the health science staff and students from 8 universities in 7 countries. The 1640 student respondents were grouped as users or nonusers based on their reported frequency of social media use in their education. Results Of the 1640 respondents, 1343 (81.89%) use social media in their education. Only 462 of the 1320 (35.00%) respondents have received specific social media training, and of those who have not, the majority (64.9%, 608/936) would like the opportunity. Users and nonusers reported the same 3 factors as the top barriers to their use of social media: uncertainty on policies, concerns about professionalism, and lack of support from the department. Nonusers reported all the barriers more frequently and almost half of nonusers reported not knowing how to incorporate social media into their learning. Among users, more than one fifth (20.5%, 50/243) of students who use social media “almost always” reported sharing clinical images without explicit permission. Conclusions Our global, interdisciplinary study demonstrates that a significant number of students across all health science disciplines self-reported sharing clinical images inappropriately, and thus request the need for policies and training specific to social media use in health science education. PMID:28052842

Student Science Teachers' Ideas about Endangered Bird Species: Hermit Ibis, Chukar Partridge

ERIC Educational Resources Information Center

Cardak, Osman; Dikmenli, Musa

2009-01-01

In this study, student science teachers' ideas and views of endangered bird species and their protection are analysed. 173 student science teachers studying at Selcuk University in the department of science education, participated in the study. Data analysis provides evidence that the majority of students thought that human intervention is…

Promoting Online Students' Engagement and Learning in Science and Sustainability Preservice Teacher Education

ERIC Educational Resources Information Center

Tomas, Louisa; Lasen, Michelle; Field, Ellen; Skamp, Keith

2015-01-01

At James Cook University, a core first-year subject within the Bachelor of Education, Foundations of Sustainability in Education (FSE), sees students investigate the underlying science and complexity of socioecological challenges through inquiry, place-based learning, experimentation and consideration of classroom practice. Given that this subject…

Kernel-Based Discriminant Techniques for Educational Placement

ERIC Educational Resources Information Center

Lin, Miao-hsiang; Huang, Su-yun; Chang, Yuan-chin

2004-01-01

This article considers the problem of educational placement. Several discriminant techniques are applied to a data set from a survey project of science ability. A profile vector for each student consists of five science-educational indicators. The students are intended to be placed into three reference groups: advanced, regular, and remedial.…

Special Education Teachers' Nature of Science Instructional Experiences

ERIC Educational Resources Information Center

Mulvey, Bridget K.; Chiu, Jennifer L.; Ghosh, Rajlakshmi; Bell, Randy L.

2016-01-01

Special education teachers provide critical science instruction to students. However, little research investigates special education teacher beliefs and practices around science in general or the nature of science and inquiry in particular. This investigation is a cross-case analysis of four elementary special education teachers' initial…

Science Communication versus Science Education: The Graduate Student Scientist as a K-12 Classroom Resource

NASA Technical Reports Server (NTRS)

Strauss, Jeff; Shope, Richard E., III; Terebey, Susan

2005-01-01

Science literacy is a major goal of science educational reform (NRC, 1996; AAAS, 1998; NCLB Act, 2001). Some believe that teaching science only requires pedagogical content knowledge (PCK). Others believe doing science requires knowledge of the methodologies of scientific inquiry (NRC, 1996). With these two mindsets, the challenge for science educators is to create models that bring the two together. The common ground between those who teach science and those who do science is science communication, an interactive process that galvanizes dialogue among scientists, teachers, and learners in a rich ambience of mutual respect and a common, inclusive language of discourse . The dialogue between science and non-science is reflected in the polarization that separates those who do science and those who teach science, especially as it plays out everyday in the science classroom. You may be thinking, why is this important? It is vital because, although not all science learners become scientists, all K-12 students are expected to acquire science literacy, especially with the implementation of the No Child Left Behind Act of 2001 (NCLB). Students are expected to acquire the ability to follow the discourse of science as well as connect the world of science to the context of their everyday life if they plan on moving to the next grade level, and in some states, to graduate from high school. This paper posits that science communication is highly effective in providing the missing link for K-12 students cognition in science and their attainment of science literacy. This paper will focus on the "Science For Our Schools" (SFOS) model implemented at California State Univetsity, Los Angeles (CSULA) as a project of the National Science Foundation s GK-12 program, (NSF 2001) which has been a huge success in bridging the gap between those who "know" science and those who "teach" science. The SFOS model makes clear the distinctions that identify science, science communication, science education, and science literacy in the midst of science learning by bringing together graduate student scientists and science teachers to engage students in the two world s dialogue in the midst of the school science classroom. The graduate student scientists and the science teachers worked as a team throughout the school year and became effective science Communicators as they narrowed the gulf between the two worlds. 1

Contribution to activity: a lens for understanding students' potential and agency in physics education

NASA Astrophysics Data System (ADS)

Farhangi, Sanaz

2017-03-01

In this paper I argue for using the concept of contribution to activity to understand student engagement with science education and its transformational potential in formal settings. Drawing on transformative activist stance, I explain contribution as how individuals take part in and transform collective practices according to their own life agendas and get transformed themselves. As contribution to science education is a concept based on transformation, not adaptation, it can be especially informative when examining how underrepresented students in science can be more engaged in science education and eventually science. Using survey, interview and group conversations, and field observations in an undergraduate physics course, I put forward Zoey's case to illustrate my argument and show how her contribution to the activities in the course initiated change in the activity among her peers.

Students interest in learning science through fieldwork activity encourage critical thinking and problem solving skills among UPSI pre-university students

NASA Astrophysics Data System (ADS)

Jamil, Siti Zaheera Muhamad; Khairuddin, Raja Farhana Raja

2017-05-01

Graduates with good critical thinking and problem solving (CTPS) skills are likely to boost their employability to live in 21st century. The demands of graduates to be equipped with CTPS skills have shifted our education system in focusing on these elements in all levels of education, from primary, the secondary, and up to the tertiary education, by fostering interesting teaching and learning activities such as fieldwork activity in science classes. Despite the importance of the CTPS skills, little is known about whether students' interests in teaching and learning activities, such as fieldwork activity, have any influence on the students CTPS skills. Therefore, in this investigation, firstly to examine students interests in learning science through fieldwork activity. Secondly, this study examined whether the students' interest in learning science through fieldwork activity have affect on how the students employ CTPS skills. About 100 Diploma of Science students in Universiti Pendidikan Sultan Idris (UPSI) were randomly chosen to participate in this study. All of the participants completed a survey on how they find the fieldwork activity implemented in their science classes and it relevents towards their CTPS skills development. From our findings, majority of the students (91%) find that fieldwork activity is interesting and helpful in increasing their interest in learning science (learning factor) and accommodate their learning process (utility). Results suggest that students' interest on the fieldwork activity in science classes does have some influence on the students development of CTPS skills. The findings could be used as an initial guideline by incorporating students' interest on other teaching and learning activities that being implemented in science classes in order to know the impacts of these learning activities in enhancing their CTPS skills.

Communicating Ocean Science at the Lower-Division Level

NASA Astrophysics Data System (ADS)

Coopersmith, A.

2011-12-01

Pacific Ocean Literacy for Youth, Publics, Professionals, and Scientists (POLYPPS) is an NSF-funded collaboration between the University of Hawai`i and the Center for Ocean Science Education Excellence (COSEE) - California, which is based at the Lawrence Hall of Science, University of California - Berkeley. One of the objectives of this project is to instutionalize ocean science communications courses at colleges and universities in Hawai`i. Although the focus of most of these communications courses has been on training graduate students and scientists, lower-division students interested in the ocean sciences are finding this background helpful. At the University of Hawai`i Maui College there are several marine science courses and certificate programs that require students to interact with the public through internships, research assistantships, and course-related service-learning projects. Oceanography 270, Communicating Ocean Science, is now offered to meet the needs of these students who engage with the public in informal educational settings. Other students who enroll in this course have a general interest in the marine environment and are considering careers in K-12 formal education. This course gives this group of students an opportunity to explore formal education by assisting classroom teachers and preparing and presenting problem-based, hands-on, inquiry activities. Employers at marine-related businesses and in the tourist industry have welcomed this course with a focus on communication skills and indicate that they prefer to hire local people with strong backgrounds in marine and natural sciences. A basic premise of POLYPPS is that science education must draw not only from the latest advances in science and technology but also from the cultural contexts in which the learners are embedded and that this will achieve increased understanding and stewardship of ocean environments. Students in Oceanography 270 integrate traditional Hawaiian knowledge into their activities and presentations with the advice of local practitioners who share their experiences for incorporating both Hawaiian ways of learning and environmental practices.

Redefining Scientist-Educator Partnerships: Science in Service at Stanford

NASA Astrophysics Data System (ADS)

Beck, K.

2005-05-01

The Stanford Solar Observatories Group and Haas Center for Public Service have created an innovative model for scientist-educator partnerships in which science students are trained and mentored by public service education professionals to create outreach events for local communities. The program, Science in Service, is part of the EPO plan for the Solar Group's participation in NASA's Solar Dynamics Observatory mission. Based on the principles of service learning, the Science in Service Program mentors college science students in best practices for communicating science and engages these students in public service projects that center on teaching solar science. The program goals are to - Enhance and expand the learning experiences that pre-college students, from underserved and underrepresented groups in particular, have in science and technology. - Promote leadership in community service in the area of science and engineering among the next generation of scientists and engineers, today's undergraduate students. - Encourage science and engineering faculty to think creatively about their outreach requirements and to create a community of faculty committed to quality outreach programs. This talk will describe the unique advantages and challenges of a research-public service partnership, explain the structure of Stanford's Science in Service Program, and present the experiences of the undergraduates and the outreach communities that have been involved in the program.

What Is a Watershed? Implications of Student Conceptions for Environmental Science Education and the National Science Education Standards

ERIC Educational Resources Information Center

Shepardson, Daniel P.; Wee, Bryan; Priddy, Michelle; Schellenberger, Lauren; Harbor, Jon

2007-01-01

The purpose of this study was to investigate students' conceptions about watersheds. Specifically: (1) What are students' conceptions of a watershed? and (2) In what ways might students' conceptions vary by grade level and community setting? This study was descriptive in nature and reflected a cross-age design involving the collection of…

High school science fair and research integrity

PubMed Central

Dalley, Simon; Shepherd, Karen; Reisch, Joan

2017-01-01

Research misconduct has become an important matter of concern in the scientific community. The extent to which such behavior occurs early in science education has received little attention. In the current study, using the web-based data collection program REDCap, we obtained responses to an anonymous and voluntary survey about science fair from 65 high school students who recently competed in the Dallas Regional Science and Engineering Fair and from 237 STEM-track, post-high school students (undergraduates, 1st year medical students, and 1st year biomedical graduate students) doing research at UT Southwestern Medical Center. Of the post-high school students, 24% had competed in science fair during their high school education. Science fair experience was similar overall for the local cohort of Dallas regional students and the more diverse state/national cohort of post-high school students. Only one student out of 122 reported research misconduct, in his case making up the data. Unexpectedly, post-high school students who did not participate in science fair anticipated that carrying out science fair would be much more difficult than actually was the case, and 22% of the post-high school students anticipated that science fair participants would resort to research misconduct to overcome obstacles. No gender-based differences between students’ science fair experiences or expectations were evident. PMID:28328976

Aspects of science engagement, student background, and school characteristics: Impacts on science achievement of U.S. students

NASA Astrophysics Data System (ADS)

Grabau, Larry J.

Science achievement of U.S. students has lagged significantly behind other nations; educational reformers have suggested science engagement may enhance this critical measure. The 2006 Program for International Student Assessment (PISA) was science-focused and measured science achievement along with nine aspects of science engagement: science self-efficacy, science self-concept, enjoyment of science, general interest in learning science, instrumental motivation for science, future-oriented science motivation, general value of science, personal value of science, and science-related activities. I used multilevel modeling techniques to address both aspects of science engagement and science achievement as outcome variables in the context of student background and school characteristics. Treating aspects of science engagement as outcome variables provided tests for approaches for their enhancement; meanwhile, treating science achievement as the outcome variable provided tests for the influence of the aspects of science engagement on science achievement under appropriate controls. When aspects of science engagement were treated as outcome variables, gender and father's SES had frequent (significant) influences, as did science teaching strategies which focused on applications or models and hands-on activities over-and-above influences of student background and other school characteristics. When science achievement was treated as the outcome variable, each aspect of science engagement was significant, and eight had medium or large effect sizes (future-oriented science motivation was the exception). The science teaching strategy which involved hands-on activities frequently enhanced science achievement over-and-above influences of student background and other school characteristics. Policy recommendations for U.S. science educators included enhancing eight aspects of science engagement and implementing two specific science teaching strategies (focus on applications or models and hands-on activities). Focused implementation of these research findings could enhance both science engagement and science achievement of U.S. students. I identified five keylimitations of my research project: the age of the dataset, the lack of racial/ethnic identifiers, the low proportion of student-level variance accounted for by multilevel models with aspects of science engagement as outcome variables, the lack of class-level measures, and the lack of inclusion of students' epistemological and fixed/flexible beliefs. These limitations provide opportunities for further investigations into these critical issues in science education.

Listening to their voices: The essence of the experience of special and regular education students as they learn monarch, Danaus plexippus, biology and ecology

NASA Astrophysics Data System (ADS)

Koomen, Michele Jean Hollingsworth

This dissertation reports on a phenomenological study of nine regular and special education students as they studied insect biology and ecology in their inclusive seventh grade life science class. Three fundamental data collection methods of interpretive research (student observations, interviews and artifact analysis) framed the data collection of this study. Hermeneutic phenomenological analysis and a seven-step framework, beginning with establishment of the unit of analysis and ending in theory generation, were used to systematically analyze the data resulting in the emergence of four main themes. The essence of the lived experience of the study participants reveal a variety of ways working with others in groups supported their learning. Students reported that it was easier to share ideas, ask questions and complete their work when they worked together with other classmates. A second finding of this study, It's kind of hard in learning science, exposes some of the anxiety and the challenges that are part of the experiences of both regular and special education students in learning science. A third finding reveals that for the students in this study the practice of inquiry learning in science is fragile. Despite daily opportunities in inquiry activities, many students are fixated in finding the "right" answers and just getting their "work done." The practice of inquiry is also fragile because of the perceptions of how we go about doing and learning science. The perception of practicing science for the special education students was moderated and limited by their viewpoint that science is coupled with language arts. The last major theme describes the manner in which both student groups navigate through science learning using various strategies that contribute to their learning or engaging in behaviors that seem to conceal their learning differences. The results of this research have implication for inclusive classroom teachers, special educators, teacher educators and administrators. Listening to their voices serves to "prime" us to consider and value their perspectives as we make decisions that affect their learning and their lives.

Scale of Academic Emotion in Science Education: Development and Validation

NASA Astrophysics Data System (ADS)

Chiang, Wen-Wei; Liu, Chia-Ju

2014-04-01

Contemporary research into science education has generally been conducted from the perspective of 'conceptual change' in learning. This study sought to extend previous work by recognizing that human rationality can be influenced by the emotions generated by the learning environment and specific actions related to learning. Methods used in educational psychology were adopted to investigate the emotional experience of science students as affected by gender, teaching methods, feedback, and learning tasks. A multidisciplinary research approach combining brain activation measurement with multivariate psychological data theory was employed in the development of a questionnaire intended to reveal the academic emotions of university students in three situations: attending science class, learning scientific subjects, and problem solving. The reliability and validity of the scale was evaluated using exploratory and confirmatory factor analyses. Results revealed differences between the genders in positive-activating and positive-deactivating academic emotions in all three situations; however, these differences manifested primarily during preparation for Science tests. In addition, the emotions experienced by male students were more intense than those of female students. Finally, the negative-deactivating emotions associated with participation in Science tests were more intense than those experienced by simply studying science. This study provides a valuable tool with which to evaluate the emotional response of students to a range of educational situations.

Math and Science. IDRA Focus.

ERIC Educational Resources Information Center

IDRA Newsletter, 1998

1998-01-01

This newsletter theme issue includes six articles on improving math and science education, particularly for poor, Limited-English-Proficient (LEP), and female students. "Effective Math and Science Instruction--The Project Approach for LEP Students" (Joseph Vigil) describes how hands-on science projects can increase student motivation,…

The impact of a developmental science course on college success for underprepared health science students

NASA Astrophysics Data System (ADS)

Johnson, Candace A.

Developmental education for the academically underprepared college student has been aimed at helping students succeed in college. However, developmental education courses have traditionally focused on reading, writing and math. This quantitative study examined the relationship between a developmental science course for underprepared health science students on grades achieved in college level medical terminology courses. The effect was measured by analyzing student grades retrieved from a college database of official school records through the use of correlation research methodology during a previous 2-year academic period at a selected independent 4-year right-to-try college. The results yielded a weakly positive correlation, but not statistically significant coefficient of 0.325 between grades for students who successfully completed the developmental science course and their subsequent success in a college-level science course. The study added to the gap in knowledge in terms of the effect a developmental science course has on grades in college-level science courses.

The Three-Pronged Approach to Community Education: An Ongoing Hydrologic Science Outreach Campaign Directed from a University Research Center

NASA Astrophysics Data System (ADS)

Gallagher, L.; Morse, M.; Maxwell, R. M.

2017-12-01

The Integrated GroundWater Modeling Center (IGWMC) at Colorado School of Mines has, over the past three years, developed a community outreach program focusing on hydrologic science education, targeting K-12 teachers and students, and providing experiential learning for undergraduate and graduate students. During this time, the programs led by the IGWMC reached approximately 7500 students, teachers, and community members along the Colorado Front Range. An educational campaign of this magnitude for a small (2 full-time employees, 4 PIs) research center required restructuring and modularizing of the outreach strategy. We refined our approach to include three main "modules" of delivery. First: grassroots education delivery in the form of K-12 classroom visits, science fairs, and teacher workshops. Second: content development in the form of lesson plans for K-12 classrooms and STEM camps, hands-on physical and computer model activities, and long-term citizen science partnerships. Lastly: providing education/outreach experiences for undergraduate and graduate student volunteers, training them via a 3-credit honors course, and instilling the importance of effective science communication skills. Here we present specific case studies and examples of the successes and failures of our three-pronged system, future developments, and suggestions for entities newly embarking on an earth science education outreach campaign.

Quarked! - Adventures in Particle Physics Education

NASA Astrophysics Data System (ADS)

MacDonald, Teresa; Bean, Alice

2009-01-01

Particle physics is a subject that can send shivers down the spines of students and educators alike-with visions of long mathematical equations and inscrutable ideas. This perception, along with a full curriculum, often leaves this topic the road less traveled until the latter years of school. Particle physics, including quarks, is typically not introduced until high school or university.1,2 Many of these concepts can be made accessible to younger students when presented in a fun and engaging way. Informal science institutions are in an ideal position to communicate new and challenging science topics in engaging and innovative ways and offer a variety of educational enrichment experiences for students that support and enhance science learning.3 Quarked!™ Adventures in the Subatomic Universe, a National Science Foundation EPSCoR-funded particle physics education program, provides classroom programs and online educational resources.

Transforming Elementary Science Teacher Education by Bridging Formal and Informal Science Education in an Innovative Science Methods Course

ERIC Educational Resources Information Center

Riedinger, Kelly; Marbach-Ad, Gili; McGinnis, J. Randy; Hestness, Emily; Pease, Rebecca

2011-01-01

We investigated curricular and pedagogical innovations in an undergraduate science methods course for elementary education majors at the University of Maryland. The goals of the innovative elementary science methods course included: improving students' attitudes toward and views of science and science teaching, to model innovative science teaching…

Effective Pedagogy in Social Sciences. Educational Practices Series-23

ERIC Educational Resources Information Center

Sinnema, Claire; Aitken, Graeme

2012-01-01

This booklet is a synthesis of research on social sciences teaching that has been shown to have a positive effect on a range of desirable student outcomes: cognitive, skills, participatory and affective outcomes. Education in the social sciences plays an important role in developing students' sense of identity and influencing the ways in which…

Empathy in Future Teachers of the Pedagogical and Technological University of Colombia

ERIC Educational Resources Information Center

Herrera Torres, Lucía; Buitrago Bonilla, Rafael Enrique; Avila Moreno, Aida Karina

2016-01-01

This study analyzes cognitive and emotional empathy in students who started their training at the Education Science Faculty of the Pedagogical and Technological University of Colombia. The sample was formed by 317 students enrolled in the study programs of Preschool, Plastic Arts, Natural Sciences, Physical Education, Philosophy, Computer Science,…

The Case of Polar Bears

ERIC Educational Resources Information Center

Rowlands, Olivia; Hokayem, Hayat; Biediger, Debbie

2017-01-01

"A Framework for K-12 Science Education" emphasizes the need to teach students the core ideas of science through capitalizing on students' curiosity to discover the world around them (NRC 2012). Children's experiences vary, and for educators to engage them in the process of science, they need to think of diverse ways to nourish their…

Nature of Science and Models: Comparing Portuguese Prospective Teachers' Views

ERIC Educational Resources Information Center

Torres, Joana; Vasconcelos, Clara

2015-01-01

Despite the relevance of nature of science and scientific models in science education, studies reveal that students do not possess adequate views regarding these topics. Bearing in mind that both teachers' views and knowledge strongly influence students' educational experiences, the main scope of this study was to evaluate Portuguese prospective…

Teachers' Use of Educative Curriculum Materials to Engage Students in Science Practices

ERIC Educational Resources Information Center

Arias, Anna Maria; Davis, Elizabeth A.; Marino, John-Carlos; Kademian, Sylvie M.; Palincsar, Annemarie Sullivan

2016-01-01

New reform documents underscore the importance of integrating science practices into the learning of science. This integration requires sophisticated teaching that does not often happen. Educative curriculum materials--materials explicitly designed to support teacher and student learning--have been posited as a way to support teachers to achieve…

What Do Students "Construct" According to Constructivism in Science Education?

ERIC Educational Resources Information Center

Bächtold, Manuel

2013-01-01

This paper aims at shedding light on what students can "construct" when they learn science and how this construction process may be supported. Constructivism is a pluralist theory of science education. As a consequence, I support, there are several points of view concerning this construction process. Firstly, I stress that constructivism…

Planning for Reform-Based Science: Case Studies of Two Urban Elementary Teachers

ERIC Educational Resources Information Center

Mangiante, Elaine Silva

2018-01-01

The intent of national efforts to frame science education standards is to promote students' development of scientific practices and conceptual understanding for their future role as scientifically literate citizens (NRC 2012). A guiding principle of science education reform is that all students receive equitable opportunities to engage in rigorous…

Opportunities for Space Science Education Using Current and Future Solar System Missions

NASA Astrophysics Data System (ADS)

Matiella Novak, M.; Beisser, K.; Butler, L.; Turney, D.

2010-12-01

The Education and Public Outreach (E/PO) office in The Johns Hopkins University Applied Physics Laboratory (APL) Space Department strives to excite and inspire the next generation of explorers by creating interactive education experiences. Since 1959, APL engineers and scientists have designed, built, and launched 61 spacecraft and over 150 instruments involved in space science. With the vast array of current and future Solar System exploration missions available, endless opportunities exist for education programs to incorporate the real-world science of these missions. APL currently has numerous education and outreach programs tailored for K-12 formal and informal education, higher education, and general outreach communities. Current programs focus on Solar System exploration missions such as the Compact Reconnaissance Imaging Spectrometer for Mars (CRISM), Miniature Radio Frequency (Mini-RF) Moon explorer, the Radiation Belt Storm Probes (RBSP), New Horizons mission to Pluto, and the Thermosphere Ionosphere Mesosphere Energetics and Dynamics (TIMED) Satellite, to name a few. Education and outreach programs focusing on K-12 formal education include visits to classrooms, summer programs for middle school students, and teacher workshops. APL hosts a Girl Power event and a STEM (Science, Technology, Engineering, and Mathematics) Day each year. Education and outreach specialists hold teacher workshops throughout the year to train educators in using NASA spacecraft science in their lesson plans. High school students from around the U.S. are able to engage in NASA spacecraft science directly by participating in the Mars Exploration Student Data Teams (MESDT) and the Student Principal Investigator Programs. An effort is also made to generate excitement for future missions by focusing on what mysteries will be solved. Higher education programs are used to recruit and train the next generation of scientists and engineers. The NASA/APL Summer Internship Program offers a unique glimpse into the Space Department’s “end-to-end” approach to mission design and execution. College students - both undergraduate and graduate - are recruited from around the U.S. to work with APL scientists and engineers who act as mentors to the students. Many students are put on summer projects that allow them to work with existing spacecraft systems, while others participate in projects that investigate the operational and science objectives of future planned spacecraft systems. In many cases these interns have returned to APL as full-time staff after graduation.

New Media and Models for Engaging Under-Represented Students in Science

NASA Astrophysics Data System (ADS)

Mayhew, Laurel M.; Finkelstein, Noah D.

2008-10-01

We describe the University of Colorado Partnerships for Informal Science Education in the Community (PISEC) program in which university students participate in classroom and after school science activities with local precollege children. Across several different formal and informal educational environments, we use new technological tools, such as stop action motion (SAM) movies [1] to engage children so that they may develop an understanding of science through play and "show and tell". This approach provides a complementary avenue for reaching children who are otherwise underrepresented in science and under-supported in more formal educational settings. We present the model of university community partnership and demonstrate its utility in a case study involving an African American third grade student learning about velocity and acceleration.

Exploring Connections Between Earth Science and Biology - Interdisciplinary Science Activities for Schools

NASA Astrophysics Data System (ADS)

Vd Flier-Keller, E.; Carolsfeld, C.; Bullard, T.

2009-05-01

To increase teaching of Earth science in schools, and to reflect the interdisciplinary nature and interrelatedness of science disciplines in today's world, we are exploring opportunities for linking Earth science and Biology through engaging and innovative hands-on science activities for the classroom. Through the NSERC-funded Pacific CRYSTAL project based at the University of Victoria, scientists, science educators, and teachers at all levels in the school system are collaborating to research ways of enriching the preparation of students in math and science, and improving the quality of science education from Kindergarten to Grade 12. Our primary foci are building authentic, engaging science experiences for students, and fostering teacher leadership through teacher professional development and training. Interdisciplinary science activities represent an important way of making student science experiences real, engaging and relevant, and provide opportunities to highlight Earth science related topics within other disciplines, and to expand the Earth science taught in schools. The Earth science and Biology interdisciplinary project builds on results and experiences of existing Earth science education activities, and the Seaquaria project. We are developing curriculum-linked activities and resource materials, and hosting teacher workshops, around two initial areas; soils, and marine life and the fossil record. An example activity for the latter is the hands-on examination of organisms occupying the nearshore marine environment using a saltwater aquarium and touch tank or beach fieldtrip, and relating this to a suite of marine fossils to facilitate student thinking about representation of life in the fossil record e.g. which life forms are typically preserved, and how are they preserved? Literacy activities such as fossil obituaries encourage exploration of paleoenvironments and life habits of fossil organisms. Activities and resources are being tested with teachers and student teachers through workshops, at teacher conferences, and participating Faculties of Education.

Enhancing student engagement to positively impact mathematics anxiety, confidence and achievement for interdisciplinary science subjects

NASA Astrophysics Data System (ADS)

Everingham, Yvette L.; Gyuris, Emma; Connolly, Sean R.

2017-11-01

Contemporary science educators must equip their students with the knowledge and practical know-how to connect multiple disciplines like mathematics, computing and the natural sciences to gain a richer and deeper understanding of a scientific problem. However, many biology and earth science students are prejudiced against mathematics due to negative emotions like high mathematical anxiety and low mathematical confidence. Here, we present a theoretical framework that investigates linkages between student engagement, mathematical anxiety, mathematical confidence, student achievement and subject mastery. We implement this framework in a large, first-year interdisciplinary science subject and monitor its impact over several years from 2010 to 2015. The implementation of the framework coincided with an easing of anxiety and enhanced confidence, as well as higher student satisfaction, retention and achievement. The framework offers interdisciplinary science educators greater flexibility and confidence in their approach to designing and delivering subjects that rely on mathematical concepts and practices.

Why Everyday Experience? Interpreting Primary Students' Science Discourse from the Perspective of John Dewey

NASA Astrophysics Data System (ADS)

Na, Jiyeon; Song, Jinwoong

2014-05-01

The purposes of this study were, based on John Dewey's ideas on experience, to examine how primary students used their own everyday experience and were affected by own and others' experience in science discourse, and to illuminate the implications of experience in science education. To do these, science discourses by a group of six fourth-graders were observed, where they talked about their ideas related to thermal concepts. The data was collected through interviews and open-ended questions, analyzed based on Dewey's perspective, and depicted as the discourse map which was developed to illustrate students' transaction and changing process of students' ideas. The results of the analysis showed typical examples of Dewey's notions of experience, such as the principles of continuity and of transaction and of different types of experience, examples of `the expanded continuity and transaction', and science discourse as inquiry. It was also found that students' everyday experiences played several roles: as a rebuttal for changing their own ideas or others', backing for assurance of their own ideas in individual students' inner changes after discourse with others, and backing for other's ideas. Based on these observations, this study argues that everyday experience should be considered as a starting point for primary students' science learning because most of their experience comes from everyday, not school science, contexts. In addition, to evoke educative experience in science education, it is important for teachers to pay more attention to Dewey's notions of the principles of continuity and of transaction and to their educational implications.

A case study of undergraduate female students majoring in math, science and engineering: An analysis of persistence and success

NASA Astrophysics Data System (ADS)

Hyde, Michelle Smoot

This dissertation provides information concerning the educational experience of females studying in undergraduate fields of math, engineering and science at a large research institution in the West. The majority of the participants were Project Access students, chosen because of their high achievements in science and mathematics during their secondary education. The study identifies and attempts to understand critical factors within the academic environment of science that contribute to female persistence in math, engineering and science (MES) disciplines. The study postulates that universities can make a difference in the education of women by providing programs that assure quality education and the fostering of female interest in science domains. The study recommends the incorporation of collaborative learning processes and teaching methods, cohort involvement and the fostering of study groups, encouragement of professorial associations with students, and internship and lab programs in an attempt to provide a more holistic and less fragmented education, thus benefiting women seeking MES degrees. Also, the research presented in this paper determined that the formation of positive associations and support networks was crucial to college female population studied. The interpretive study's aim is to enhance persistence rates among undergraduate students studying in math, engineering and science fields.

The Effectiveness of Traditional and 21st Century Teaching Tools on Students' Science Learning

NASA Astrophysics Data System (ADS)

Bellflower, Julie V.

Any student seeking a high school diploma from the public school system in one U.S. state must pass the state's high school graduation test. In 2009, only 88% of students at one high school in the state met the basic proficiency requirements on the science portion of the test. Because improved science education has been identified as an explicit national goal, the purpose of this mixed methods study was to determine whether traditional teaching tools (notes, lecture, and textbook) or 21st century teaching tools (online tutorials, video games, YouTube, and virtual labs) lead to greater gains in students' science learning. Bruner's constructivist and Bandura's social cognitive theories served as the foundations for the study. Quantitative research questions were used to investigate the relationship between the type of teaching tools used and student learning gains. Quantitative data from students' pre and posttests were collected and analyzed using a dependent samples t-test. Qualitative data were collected through a focus group interview and participant journals. Analysis of the qualitative data included coding the data and writing a descriptive narrative to convey the findings. Results showed no statistically significant differences in students' science achievement: both types of teaching tools led to student learning gains. As a result, an action plan was developed to assist science educators in the implementation of traditional and 21st century teaching tools that can be used to improve students' science learning. Implications for positive social change included providing science educators with a specific plan of action that will enhance students' science learning, thereby increasing science scores on the state and other high stakes tests.

Interdisciplinary Science Courses for College General Education Requirements: Perspectives of Faculty at a State University.

ERIC Educational Resources Information Center

Dass, Pradeep Maxwell

Science educators have been advocating a broader role for science education--that of helping all students see the relevance of science to their own lives. Yet the only experience with post-secondary science that non-science majors get is through a couple of science courses which are part of the general education requirements (GERs) for a liberal…

Materials Science and Technology Teachers Handbook

DOE Office of Scientific and Technical Information (OSTI.GOV)

Wieda, Karen J.; Schweiger, Michael J.; Bliss, Mary

The Materials Science and Technology (MST) Handbook was developed by Pacific Northwest National Laboratory, in Richland, Washington, under support from the U.S. Department of Energy. Many individuals have been involved in writing and reviewing materials for this project since it began at Richland High School in 1986, including contributions from educators at the Northwest Regional Education Laboratory, Central Washington University, the University of Washington, teachers from Northwest Schools, and science and education personnel at Pacific Northwest National Laboratory. Support for its development was also provided by the U.S. Department of Education. This introductory course combines the academic disciplines of chemistry,more » physics, and engineering to create a materials science and technology curriculum. The course covers the fundamentals of ceramics, glass, metals, polymers and composites. Designed to appeal to a broad range of students, the course combines hands-on activities, demonstrations and long term student project descriptions. The basic philosophy of the course is for students to observe, experiment, record, question, seek additional information, and, through creative and insightful thinking, solve problems related to materials science and technology. The MST Teacher Handbook contains a course description, philosophy, student learning objectives, and instructional approach and processes. Science and technology teachers can collaborate to build the course from their own interests, strengths, and experience while incorporating existing school and community resources. The course is intended to meet local educational requirements for technology, vocational and science education.« less

Wisconsin Earth and Space Science Education

NASA Technical Reports Server (NTRS)

Bilbrough, Larry (Technical Monitor); French, George

2003-01-01

The Wisconsin Earth and Space Science Education project successfilly met its objectives of creating a comprehensive online portfolio of science education curricular resources and providing a professional development program to increase educator competency with Earth and Space science content and teaching pedagogy. Overall, 97% of participants stated that their experience was either good or excellent. The favorable response of participant reactions to the professional development opportunities highlights the high quality of the professional development opportunity. The enthusiasm generated for using the curricular material in classroom settings was overwhelmingly positive at 92%. This enthusiasm carried over into actual classroom implementation of resources from the curricular portfolio, with 90% using the resources between 1-6 times during the school year. The project has had a positive impact on student learning in Wisconsin. Although direct measurement of student performance is not possible in a project of this kind, nearly 75% of participating teachers stated that they saw an increase in student performance in math and science as a result of using project resources. Additionally, nearly 75% of participants saw an increase in the enthusiasm of students towards math and science. Finally, some evidence exists that the professional development academies and curricular portfolio have been effective in changing educator behavior. More than half of all participants indicated that they have used more hands-on activities as a result of the Wisconsin Earth and Space Science Education project.

Derivation and Implementation of a Model Teaching the Nature of Science Using Informal Science Education Venues

ERIC Educational Resources Information Center

Spector, Barbara S.; Burkett, Ruth; Leard, Cyndy

2012-01-01

This paper introduces a model for using informal science education venues as contexts within which to teach the nature of science. The model was initially developed to enable university education students to teach science in elementary schools so as to be consistent with "National Science Education Standards" (NSES) (1996) and "A Framework for…

Van Allen Probes Mission Space Academy: Educating middle school students about Earth's mysterious radiation belts

NASA Astrophysics Data System (ADS)

Butler, L.; Turney, D.; Matiella Novak, A.; Smith, D.; Simon, M.

2013-12-01

How's the weather in space? Why on Earth did NASA send two satellites above Earth to study radiation belts and space weather? To learn the answer to questions about NASA's Van Allen Probes mission, 450 students and their teachers from Maryland middle schools attended Space Academy events highlighting the Van Allen Probes mission. Sponsored by the Applied Physics Laboratory (APL) and Discovery Education, the events are held at the APL campus in Laurel, MD. Space Academies take students and teachers on behind-the-scenes exploration of how spacecraft are built, what they are designed to study, and introduces them to the many professionals that work together to create some of NASA's most exciting projects. Moderated by a public relations representative in the format of an official NASA press conference, the daylong event includes a student press conference with students as reporters and mission experts as panelists. Lunch with mission team members gives students a chance to ask more questions. After lunch, students don souvenir clean room suits, enjoy interactive science demonstrations, and tour APL facilities where the Van Allen Probes were built and tested before launch. Students may even have an opportunity to peek inside a clean room to view spacecraft being assembled. Prior to the event, teachers are provided with classroom activities, lesson plans, and videos developed by APL and Discovery Education to help prepare students for the featured mission. The activities are aligned to National Science Education Standards and appropriate for use in the classroom. Following their visit, student journalists are encouraged to write a short article about their field trip; selections are posted on the Space Academy web site. Designed to engage, inspire, and influence attitudes about space science and STEM careers, Space Academies provide an opportunity to attract underserved populations and emphasize that space science is for everyone. Exposing students to a diverse group of scientists and engineers may alleviate some common stereotypes about these careers. When students engage with the scientists and engineers at APL, they see first-hand that successful science and engineering requires a diverse team with multi-disciplinary backgrounds. Activities throughout the day develop student understanding about science and technology, and address the fundamental concepts that fall under the National Science Education Content Standards. Students are immersed in a hands-on experience designed to facilitate understanding of the History and Nature of Science. Throughout the day students interact with people of diverse backgrounds and interests while hearing about the specific ways various individuals and teams of people contribute to the science and technology of the mission, addressing the concepts which fall under the headings of Science as a Human Endeavor, Nature of Science, and History of Science. Getting students outside the classroom to visit APL is an exclusive opportunity; evaluations have indicated that students became interested in learning more about space science and STEM careers after attending a Space Academy event.

From a Sense of Stereotypically Foreign to Belonging in a Science Community: Ways of Experiential Descriptions about High School Students' Science Internship

ERIC Educational Resources Information Center

Hsu, Pei-Ling; Roth, Wolff-Michael

2010-01-01

Science educators often suggest that students should learn science in ways and settings that bear family resemblance with "the real thing." Internship in science laboratories constitutes one such way in which students may learn science and learn about science. However, very little is known about "how" participants experience a…

An Empirical Investigation of Variance Design Parameters for Planning Cluster-Randomized Trials of Science Achievement.

PubMed

Westine, Carl D; Spybrook, Jessaca; Taylor, Joseph A

2013-12-01

Prior research has focused primarily on empirically estimating design parameters for cluster-randomized trials (CRTs) of mathematics and reading achievement. Little is known about how design parameters compare across other educational outcomes. This article presents empirical estimates of design parameters that can be used to appropriately power CRTs in science education and compares them to estimates using mathematics and reading. Estimates of intraclass correlations (ICCs) are computed for unconditional two-level (students in schools) and three-level (students in schools in districts) hierarchical linear models of science achievement. Relevant student- and school-level pretest and demographic covariates are then considered, and estimates of variance explained are computed. Subjects: Five consecutive years of Texas student-level data for Grades 5, 8, 10, and 11. Science, mathematics, and reading achievement raw scores as measured by the Texas Assessment of Knowledge and Skills. Results: Findings show that ICCs in science range from .172 to .196 across grades and are generally higher than comparable statistics in mathematics, .163-.172, and reading, .099-.156. When available, a 1-year lagged student-level science pretest explains the most variability in the outcome. The 1-year lagged school-level science pretest is the best alternative in the absence of a 1-year lagged student-level science pretest. Science educational researchers should utilize design parameters derived from science achievement outcomes. © The Author(s) 2014.

Science Teacher Candidates' Learning and Studying Strategies in the Context of Self-Regulation

ERIC Educational Resources Information Center

Yilmaz, Özkan

2017-01-01

This study investigated the students' individual study and learning strategies. Toward this purpose, open ended question form was administered to 40 university students who have enrolled department of mathematics and science education, faculty of education. Students were selected randomly in all level of class. Qualitative research method was used…

Student Expectations, University Goals: Looking for Alignment in General Education Science

ERIC Educational Resources Information Center

Ericson, Rebecca J.

2012-01-01

This action research dissertation explores the alignment of university goals, faculty practice, and student expectations for general education natural science courses as a first step to understanding how best to restructure the program to ensure that students are learning in alignment with university stated goals for this aspect of their…

Enhancing Preservice Teacher Education Students' Sense of Science Teaching Self Efficacy.

ERIC Educational Resources Information Center

Watters, James J.; And Others

This paper reports on the effects of an intervention program designed to develop cognitive and affective skills for the study of science by students undertaking a preservice elementary teacher education course. Previous research has indicated that a high proportion of students coming into this course have had negative experience in their previous…

Stemming on STEM: A STEM Education Framework for Students with Disabilities

ERIC Educational Resources Information Center

Hwang, Jiwon; Taylor, Jonte C.

2016-01-01

There has been increased attention paid to science, technology, engineering, and mathematics also known as STEM. The focus on STEM has been both educational and occupational. Unfortunately, students with disabilities perform below their peers without disabilities in math and science. The authors discuss issues related to STEM and students with…

Collaborative Creativity Processes in a Wiki: A Study in Secondary Education

ERIC Educational Resources Information Center

Pifarré, Manoli; Marti, Laura; Guijosa, Alex

2014-01-01

This paper explores how wiki may be used to support secondary education students' collaborative creativity processes and how such interaction can promote critical and creativity thinking. A science case-based project in which 81 secondary students participated was designed, implemented and evaluated. Students worked in the science wiki project…

On Students‧ Evasion of Science and Engineering Course in Korea and the Recent Conditions of College Students Employment

NASA Astrophysics Data System (ADS)

Kim, Youngjong

In the 21st century as information society, to increase the advancement rate of high capable students in science and engineering majors, we can consider the sociological, economical and psychological aspects of the problem. So, we need promote the gifted and talented students in elementary and secondary education, and through such improving measures we need plan to reform the trend of avoiding science and engineering courses. And also, we have to develop diverse education programs to get higher competence. We have to develop the programs for female students with the help of the experts. We have to establish the career guidance system. As a whole, we have to aim both the specialization and diversification of the education system for improving quality of the education. And by analyzing the difficult situation of finding job for college student in South Korea, we have to devise countermeasures for long-term graduate unemployment. In this article, I will introduce the Korean case of an analysis of the trend of avoiding science and engineering courses and the case of recent job-hunting situations of college students.

Examining the Role of Numeracy in College STEM Courses: Results from the Quantitative Reasoning for College Science (QuaRCS) Assessment Instrument

NASA Astrophysics Data System (ADS)

Follette, Katherine B.; McCarthy, Donald W.; Dokter, Erin F.; Buxner, Sanlyn; Prather, Edward E.

2016-01-01

Is quantitative literacy a prerequisite for science literacy? Can students become discerning voters, savvy consumers and educated citizens without it? Should college science courses for nonmajors be focused on "science appreciation", or should they engage students in the messy quantitative realities of modern science? We will present results from the recently developed and validated Quantitative Reasoning for College Science (QuaRCS) Assessment, which probes both quantitative reasoning skills and attitudes toward mathematics. Based on data from nearly two thousand students enrolled in nineteen general education science courses, we show that students in these courses did not demonstrate significant skill or attitude improvements over the course of a single semester, but find encouraging evidence for longer term trends.

Authentic Science Experiences as a Vehicle to Change Students' Orientations toward Science and Scientific Career Choices: Learning from the Path Followed by Brad

ERIC Educational Resources Information Center

van Eijck, Michiel; Roth, Wolff-Michael

2009-01-01

Bringing a greater number of students into science is one of, if not the most fundamental goals of science education for "all", especially for heretofore-neglected groups of society such as women and Aboriginal students. Providing students with opportunities to experience how science really is enacted--i.e., "authentic science"--has been advocated…

Broadening Educational Horizons: The National Science Foundation GK-12 Teaching Fellowship Program at the University of Maine, Orono, ME, USA.

NASA Astrophysics Data System (ADS)

Wilson, K. R.; Kelley, J. T.

2005-12-01

The future of meaningful scientific research in the United States depends heavily upon the quality of the science and mathematics education received by students in our grade K-12 education system. The National Science Foundation's GK-12 Teaching Fellowship Program provides opportunities for scientific enrichment for students and their teachers at the K-12 level. Currently in its fifth year at the University of Maine, Orono, the program is one of over 100 such programs in the country. Last year, the program was honored by the New England Board of Higher Education with a Regional Award for Excellence in Project Achievement. The program has three broad goals: to enrich the scientific education of students by providing equipment, role models, and expertise that they may not otherwise be exposed; to provide professional development for teachers through curriculum enrichment and participation at scientific conferences; and to improve the teaching and communication skills of fellows. Fellows represent a broad spectrum of research interests at the University of Maine, including Biology, Chemistry, Engineering, Forestry, Geological Sciences, and Marine Science. This past year, 13 graduate students and 1 undergraduate student worked with 52 teachers and 2300 students in 26 schools across the state of Maine. The benefits of this program are tangible and substantial. New awareness of the innovative ways that K-12 and University education systems can work together to promote hands-on science and the scientific method, is one of the major contributions of the NSF GK-12 Teaching Fellowship Program.

NASA's Bioreactor: Growing Cells in a Simulated Microgravity Environment

NASA Technical Reports Server (NTRS)

Richardson, Denise

2003-01-01

National Science Education Standards (NSES), Science for All Americans, the Secretary's Commission on Achieving Necessary Skills (SCANS) as well as the National Aeronautics and Space Administration (NASA) are all making an effort to promote scientific literacy in America. Unfortunately, major evaluation programs such as the National Assessment of Educational Progress (NAEP) and the Third International Mathematics and Science Study (TIMSS) have provided information that suggested our students are not able to compete with peers from comparable countries. Although results indicated that American students are recalling memorized, factual knowledge well enough, the real problem is the ability to apply what they know. Concerned with these reports, the National Science Teacher's Association (NSTA) has developed a mission to support innovation and high quality in science teaching and learning for every student. NSTA recommends less emphasis on factual knowledge (memorization) and information and more understanding of the concepts. Science process skills are considered imperative to prepare America's students for the 21st century. The National Aeronautics and Space Administration (NASA) supports this mission and adds that NASA strives to help prepare and encourage the next generation of researchers and explorers. One method that NASA supports educators and its mission is to publish educational briefs. NASA describes a brief as a publication that ranges from one-to-thirty pages. The focus is on mission discoveries and results. The brief provides curriculum to educators that supports their objectives and NASA's interest. Educational Briefs are specific to the grade level and course so that educators may have choices that fit their methods and students level. Sometimes, the brief includes lessons and activities teachers may use. For example, NASA's Microgravity Division has designed a student bioreactor. Consequently, an Educational Brief is being written that focuses on how to build a student bioreactor and experiments that can be conducted in it. These experiments mimic the experiments done by NASA and other researchers in the real world of work.

Accomplishing the Visions for Teacher Education Programs Advocated in the National Science Education Standards

NASA Astrophysics Data System (ADS)

Akcay, Hakan; Yager, Robert

2010-10-01

The purpose of this study was to investigate the advantages of an approach to instruction using current problems and issues as curriculum organizers and illustrating how teaching must change to accomplish real learning. The study sample consisted of 41 preservice science teachers (13 males and 28 females) in a model science teacher education program. Both qualitative and quantitative research methods were used to determine success with science discipline-specific “Societal and Educational Applications” courses as one part of a total science teacher education program at a large Midwestern university. Students were involved with idea generation, consideration of multiple points of views, collaborative inquiries, and problem solving. All of these factors promoted grounded instruction using constructivist perspectives that situated science with actual experiences in the lives of students.

Performing a Choice-Narrative: A qualitative study of the patterns in STEM students' higher education choices

NASA Astrophysics Data System (ADS)

Tolstrup Holmegaard, Henriette

2015-06-01

Students' science choices have long attracted attention in both public and research. Recently there has been a call for qualitative studies to explore how choices create a sense of fit for individual students. Therefore, this paper aims to study how science students' choices of higher education are performed and to uncover the patterns of students' construction of their choice-narratives. The paper is based on a qualitative study among 38 Danish upper secondary school students. The theoretical framework is narrative psychology combined with post-structural thinking. The study shows that constructing a choice-narrative is complicated identity-work. First, the students felt encouraged to identify their interests, not only the ones related to the subject matter, but also various interests that were equally negotiated in relation to each other. Second, the choice-narratives were personalised; on the one side articulated as not too predictable, and on the other side appearing realistic and adjusted to the students' sense of self. Third, the choice-narratives were informed, validated and adjusted in the students' social network providing the students with a repertoire of viable pathways. The study demonstrates how cultural discourses about how a proper choice is made set the scene for the students' choices. The study raises some concerns for science education. Improving students' interests in science alone might not lead to increased admission as several interests equally intervene. To attract more students to science, we must consider how to actively engage them in crafting their own education, as a way to support them in making personal sense.

An evaluative study of the impact of the "Curriculum Alignment Toolbox" on middle school science achievement

NASA Astrophysics Data System (ADS)

Jones, Carol L.

The number of computer-assisted education programs on the market is overwhelming science teachers all over the Michigan. Though the need is great, many teachers are reluctant to procure computer-assisted science education programs because they are unsure of the effectiveness of such programs. The Curriculum Alignment Toolbox (CAT) is a computer-based program, aligned to the Michigan Curriculum Framework's Benchmarks for Science Education and designed to supplement science instruction in Michigan middle schools. The purpose of this study was to evaluate the effectiveness of CAT in raising the standardized test scores of Michigan students. This study involved 419 students from one urban, one suburban and one rural middle school. Data on these students was collected from 4 sources: (1) the 8th grade Michigan Education Assessment Program (MEAP) test, (2) a 9 question, 5-point Likert-type scale student survey, (3) 4 open-response student survey questions and (4) classroom observations. Results of this study showed that the experimental group of 226 students who utilized the CAT program in addition to traditional instruction did significantly better on the Science MEAP test than the control group of 193 students who received only traditional instruction. The study also showed that the urban students from a "high needs" school seemed to benefit most from the program. Additionally, though both genders and all identified ethnic groups benefited from the program, males benefited more than females and whites, blacks and Asian/Pacific Islander students benefited more than Hispanic and multi-racial students. The CAT program's success helping raise the middle school MEAP scores may well be due to some of its components. CAT provided students with game-like experiences all based on the benchmarks required for science education and upon which the MEAP test is based. The program also provided visual and auditory stimulation as well as numerous references which students indicated they enjoyed. Additionally, as best-practice, the questioning in all the gaming within CAT did not allow a student to continue until he/she had given the correct answer, thus reinforcing the correct response.

Students' Perspectives on Worldwide ``Greening'' of Tertiary Education Curricula

NASA Astrophysics Data System (ADS)

Aighewi, Isoken T.; Osaigbovo, Ulamen A.

2010-11-01

Several scholars have suggested the introduction of an environmental literacy requirement into the curricula of Non-Environmental Science disciplines in tertiary institutions of the world as a “greening” strategy for fostering global environmental stewardship necessary for enhancing understanding and collaboration in tackling the major environmental risks facing our global village today. However, there is no study on students’ opinion on this issue. This study was therefore initiated to 1) evaluate the opinion of undergraduate students on the introduction of a worldwide environmental literacy into the curricula of Non-Environmental science majors as a graduation requirement; and 2) identify any possible demographic differences in opinions among the student subjects polled. We sought the opinion of 800 undergraduates from African, North American and European universities on the subject and 99% responded. The result showed that a majority (67%) of them supported the worldwide environmental literacy requirement and those already trained were significantly ( P < 0.0001) more likely to support it than those untrained. Students from developing countries were significantly ( P < 0.0001) more likely to support it than those from developed countries; similarly students in the Arts’ disciplines were more likely to support it than Non-Arts’ students as a group. However, no significant differences were observed between students from Francophone versus Anglophone countries; Social Sciences versus Non-Social Sciences majors and between Education versus Non-Education majors. Some similarities were observed between the opinion of university-age students in this study and 15-year old secondary school students from two major international surveys (Research on Science Education-ROSE, and Program for International Student Assessment-PISA) on science education; further studies comparing these two categories of students is suggested. The need for all professionals to be literate about the science of their surroundings was the most identified reason for supporting the literacy requirement by the students polled. The results of this study thus provide evidence of support by students in the on-going paradigm shift towards “greening” the curricula of tertiary institutions and thus reinforces its implementation by leaders of academe and policy makers worldwide.

Investigating University Students' Preferences to Science Communication Skills: A Case of Prospective Science Teacher in Indonesia

ERIC Educational Resources Information Center

Suprapto, Nadi; Ku, Chih-Hsiung

2016-01-01

The purpose of this study was to investigate Indonesian university students' preferences to science communication skills. Data collected from 251 students who were majoring in science education program. The Learning Preferences to Science Communication (LPSC) questionnaire was developed with Indonesian language and validated through an exploratory…

Science for All: Engaging Students with Special Needs in and about Science

ERIC Educational Resources Information Center

Villanueva, Mary Grace; Hand, Brian

2011-01-01

The notion of "science for all" suggests that all students--irrespective of achievement and ability--should engage in opportunities to understand the practice and discourse of science. Improving scientific literacy is an intrinsic goal of science education, yet current instructional practices may not effectively support all students, in…

Two-Year Community: Construction with Scaffolds: Helping Community College Students Build Explanations

ERIC Educational Resources Information Center

Bennett, Steve; Gotwals, Amelia Wenk

2017-01-01

Science education reform documents call for students to learn science by engaging in inquiry and using science practices. One such science practice is constructing evidence-based explanations. Few students enter community college science classrooms having experience with, or being proficient in, using evidence to explain scientific phenomena.…

Theater in Physics Teacher Education

NASA Astrophysics Data System (ADS)

van den Berg, Ed

2009-09-01

Ten years ago I sat down with the first batch of students in our science/math teacher education program in the Philippines, then third-year students, and asked them what they could do for the opening of the new science building. One of them pulled a stack of papers out of his bag and put it in front of me: a complete script for a science play! This was beyond expectation. The play was practiced several times for groups of high school students visiting the science exhibition that was also organized by the students. During the opening of our building, the play was performed for visiting dignitaries including the Assistant Secretary for Education, Culture, and Sports. It was a great success! The cast got invited to present their production at a number of places and occasions.

Critical Science Education in a Suburban High School Chemistry Class

NASA Astrophysics Data System (ADS)

Ashby, Patrick

To improve students' scientific literacy and their general perceptions of chemistry, I enacted critical chemistry education (CCE) in two "regular level" chemistry classes with a group of 25 students in a suburban, private high school as part of this study. CCE combined the efforts of critical science educators (Fusco & Calabrese Barton, 2001; Gilbert 2013) with the performance expectations of the Next Generation Science Standards (NGSS) (NGSS Lead States, 2013a) to critically transform the traditional chemistry curriculum at this setting. Essentially, CCE engages students in the critical exploration of socially situated chemistry content knowledge and requires them to demonstrate this knowledge through the practices of science. The purpose of this study was to gauge these students development of chemistry content knowledge, chemistry interest, and critical scientific literacy (CSL) as they engaged in CCE. CSL was a construct developed for this study that necessarily combined the National Research Center's (2012) definition of scientific literacy with a critical component. As such, CSL entailed demonstrating content knowledge through the practices of science as well as the ability to critically analyze the intersections between science content and socially relevant issues. A mixed methods, critical ethnographic approach framed the collection of data from open-ended questionnaires, focus group interviews, Likert surveys, pre- and post unit tests, and student artifacts. These data revealed three main findings: (1) students began to develop CSL in specific, significant ways working through the activities of CCE, (2) student participants of CCE developed a comparable level of chemistry content understanding to students who participated in a traditional chemistry curriculum, and (3) CCE developed a group of students' perceptions of interest in chemistry. In addition to being able to teach students discipline specific content knowledge, the implications of this study are that CCE has the ability to affect students' critical science thinking in positive ways. However, to develop longer lasting, deeper critical insights that students use to participate in science-related issues outside of class, critical science education must be enacted longitudinally and across disciplines. Furthermore, it must be enacted in ways that either prompt or help students to transfer classroom learning outside of the classroom as they engage in critical issues in the classroom.

Pre-Service Science Teacher Education System in South Korea: Prospects and Challenges

ERIC Educational Resources Information Center

Im, Sungmin; Yoon, Hye-Gyoung; Cha, Jeongho

2016-01-01

While much is known about the high academic but low affective achievement of Korean students on international comparative studies, little is known about science teacher education in Korea. As the quality of science teachers is an important factor determining the quality of science education, gaining an understanding of science education in Korea…

Biology Education in the People's Republic of China.

ERIC Educational Resources Information Center

Hurd, Paul DeHart

1981-01-01

Describes aspects of biology education in China, discussing school organization, science curriculum at primary and secondary levels, biology curriculum, environmental education, biology instruction, Chinese students, school factories, informal science education, popularization of science, college entrance requirements, and preservice and inservice…

Evaluation of constructivist pedagogy: Influence on critical thinking skills, science fair participation and level of performance

NASA Astrophysics Data System (ADS)

Foxx, Robbie Evelyn

Science education reform, driven by a rapidly advancing technological society, demands the attention of both elementary and middle school curriculum-developers. Science education training in current standards (National Research Council [NRC] Standards 1996) emphasize inquiry, which is reported to be a basic tenet of the theory known as constructivism (NAASP, 1996; Cohen, 1988; Conley, 1993; Friedman, 1999; Newman, Marks, & Gamoran, 1996; Smerdon & Burkam 1999; Sizer 1992; Talbert & McLaughlin 1993; Tobin & Gallagher, 1987; Yager, 1991, 2000). Pedagogy focusing on the tenets of constructivist theory, at the intermediate level, can address current science standards. Many science educators believe participation in science fairs helps students develop the attitudes, skills, and knowledge that will help them to be comfortable and successful in the scientific and technological society (Czerniak, 1996). Competing in science fairs is one vehicle which allows students to apply science to societal issues, solve problems and model those things scientists do. Moreover, constructing a science fair project is suggested as being an excellent means to foster the development of concepts necessary in promoting scientific literacy (Czerniak, 1996). Research further suggests that through science fairs or other inquiry activities, students construct their knowledge with fewer misconceptions as they explore and discover the nature of science (NRC 1996). Tohn 's study (as cited in Bellipanni, 1994) stated that science fairs are a major campaign to increase student skills and to allow students a chance to have fun with science. The purpose of this research was twofold: (1) to assess science problem solving skills of students instructed using constructivist pedagogy, and (2) to explore the effects of constructivist pedagogy's influence(s) on science fair participation/placement. Students' attitudes resulting from these experiences were examined as well.

Response to science education reforms: The case of three science education doctoral programs in the United States

NASA Astrophysics Data System (ADS)

Gwekwerere, Yovita Netsai

Doctoral programs play a significant role in preparing future leaders. Science Education doctoral programs play an even more significant role preparing leaders in a field that is critical to maintaining national viability in the face of global competition. The current science education reforms have the goal of achieving science literacy for all students and for this national goal to be achieved; we need strong leadership in the field of science education. This qualitative study investigated how doctoral programs are preparing their graduates for leadership in supporting teachers to achieve the national goal of science literacy for all. A case study design was used to investigate how science education faculty interpreted the national reform goal of science literacy for all and how they reformed their doctoral courses and research programs to address this goal. Faculty, graduate students and recent graduates of three science education doctoral programs participated in the study. Data collection took place through surveys, interviews and analysis of course documents. Two faculty members, three doctoral candidates and three recent graduates were interviewed from each of the programs. Data analysis involved an interpretive approach. The National Research Council Framework for Investigating Influence of the National Standards on student learning (2002) was used to analyze interview data. Findings show that the current reforms occupy a significant part of the doctoral coursework and research in these three science education doctoral programs. The extent to which the reforms are incorporated in the courses and the way they are addressed depends on how the faculty members interpret the reforms and what they consider to be important in achieving the goal of science literacy for all. Whereas some faculty members take a simplistic critical view of the reform goals as a call to achieve excellence in science teaching; others take a more complex critical view where they question who 'all students' refers to and what science literacy means for learners with diverse cultural, linguistic or economic backgrounds. Faculty members' views significantly influence the nature and content of the courses as well as the program focus. It was also shown that a relationship exists between faculty views and the views of their doctoral students and recent graduates. In general, faculty exhibited narrower and more in-depth views about issues they consider being important in the field of science education, than doctoral students and recent graduates. External funding is critical in doctoral studies as it enables faculty to enact their visions of achieving science literacy for all. The study provides some implications for practice, policy and research. In order to achieve both equity and excellence in science teaching, there is need for dialogue among science educators to enable them to address issues of equity more effectively than at present. If doctoral programs are to continue preparing graduates who can address important issues in the field, there is need for external funding for specific research programs.

Urban high school students' perspectives about sexual health decision-making: the role of school culture and identity

NASA Astrophysics Data System (ADS)

Brotman, Jennie S.; Mensah, Felicia Moore

2013-06-01

Studies across fields such as science education, health education, health behavior, and curriculum studies identify a persistent gap between the aims of the school curriculum and its impact on students' thinking and acting about the real-life decisions that affect their lives. The present study presents a different story from this predominant pattern in the literature. Through a year-long ethnographic investigation of a health-focused New York City public high school's HIV/AIDS and sex education program, this study illustrates a case in which 20 12th grade students respond positively to their education on these topics and largely assert that school significantly influences their perspectives and actions related to sexual health decision-making. This paper presents the following interpretation of this positive influence: school culture influences these students' perspectives and decisions around sexual health by contributing to the formation of students' identities. This paper further shows how science learning in particular becomes important for students in relation to decision-making when it is linked to issues of identity. These findings suggest that, in addition to attending to the design of classroom curriculum, HIV/AIDS and sex education researchers and curriculum developers (as well as those in science education focusing on other controversial science topics) might also explore the kinds of relational and school-wide factors that potentially influence students' identities, decisions, and responses to school learning.

Designing Interdisciplinary Assessments in Sciences for College Students: An example on osmosis

NASA Astrophysics Data System (ADS)

Shen, Ji; Liu, Ou Lydia; Sung, Shannon

2014-07-01

College science education needs to foster students' habit of mind beyond disciplinary constraints. However, little research has been devoted to assessing students' interdisciplinary understanding. To address this problem, we formed a team of experts from different disciplines to develop interdisciplinary assessments that target introductory college-level science. We started our project by focusing on osmosis, a topic that involves knowledge from multiple science disciplines. We developed an instrument focusing on this topic and administered it to 3 classes of college students. A Rasch partial credit analysis showed that the items demonstrated satisfactory psychometric properties. The findings also revealed the differences between student's disciplinary and interdisciplinary understanding. The educational implications of the study were discussed.

Strength Through Options: Providing Choices for Undergraduate Education in the Geosciences

NASA Astrophysics Data System (ADS)

Furman, T.; Freeman, K. H.; Faculty, D.

2003-12-01

Undergraduate major enrollments in the Department of Geosciences at Penn State have held steady over the past 5 years despite generally declining national trends. We have successfully recruited and retained new students through intensive advising coupled with innovative curricular revision aimed to meet an array of students' educational and career goals. Our focus is on degree programs that reflect emerging interdisciplinary trends in both employment and student interest, and are designed to attract individuals from underrepresented groups. In addition to a traditional Geosciences BS program we offer a rigorous integrated Earth Sciences BS and a Geosciences BA tailored to students with interests in education and environmental law. The Earth Sciences BS incorporates course work from Geosciences, Geography and Meterology, and requires completion of an interdisciplinary minor (e.g., Climatology, Marine Sciences, Global Business Strategies). A new Geobiology BS program will attract majors with interests at the intersection of the earth and life sciences. The curriculum includes both paleontological and biogeochemical coursework, and is also tailored to accommodate pre-medicine students. We are working actively to recruit African-American students. A new minor in Science and Technology in Africa crosses disciplinary boundaries to educate students from the humanities as well as sciences. Longitudinal recruitment programs include summer research group experiences for high school students, summer research mentorships for college students, and dual undergraduate degree programs with HBCUs. Research is a fundamental component of every student's degree program. We require a capstone independent thesis as well as a field program for Geosciences and Geobiology BS students, and we encourage all students to pursue research as early as the freshman year. A new 5-year combined BS-MS program will enable outstanding students to carry their undergraduate research further before pursuing employment or doctoral programs. Enrollments in courses for non-majors have also increased substantially over the past 5 years, while those of other PSU science departments have decreased. We attribute this success to changes in pedagogic approaches, focusing on active learning exercises in large (200+) and small (<75) courses. Innovative use of an electronic personal response system has also improved attendance, enrollment and student learning in our general education courses. This approach was developed by a fixed-term faculty hire in Geoscience Education. As per our departmental strategic plan, we plan to hire again in this area to further these successes and implement new approaches to learning and teaching in our undergraduate educational programs.

Student opinion in England about science and technology

NASA Astrophysics Data System (ADS)

Jenkins, Edgar W.

2006-05-01

An earlier paper in this Journal (Jenkins & Nelson, 2005) drew upon the findings of the Relevance of Science Education Project (ROSE) to report the attitudes of students in England towards their secondary school science education. The present paper draws upon the same project to explore what the same students, almost all in their penultimate year of compulsory schooling, think about science and technology. It suggests that several basic research questions need to be addressed and answered if the present widespread decline in the industrialised world in the popularity of the physical sciences as subjects of advanced study is to be halted.

Creation of a Multidisciplinary Curriculum for Hydrologic Literacy: An Applied Ethnography.

ERIC Educational Resources Information Center

Hancock, Elizabeth S.; Uyeda, Steven

Science programs funded by the National Science Foundation (NSF) are increasingly involved in science education reform. Such entities are funded for science research and are expected to pursue educational activities with K-12 students and teachers. These efforts are often guided by ideas from current science education reform. The NSF Science and…

A New Approach to Teaching Science to Elementary Education Majors in Response to the NGSS

NASA Astrophysics Data System (ADS)

Brevik, C.; Daniels, L.; McCoy, C.

2015-12-01

The Next Generation Science Standards (NGSS) place an equal emphasis on science process skills and science content. The goal is to have K-12 students "doing" science, not just "learning about" science. However, most traditional college science classes for elementary education majors place a much stronger emphasis on science content knowledge with the hands-on portion limited to a once-a-week lab. The two models of instruction are not aligned. The result is that many elementary school teachers are unprepared to offer interactive science with their students. Without additional coaching, many teachers fall back on the format they learned in college - lecture, handouts, homework. If we want teachers to use more hands-on methods in the classroom, these techniques should be taught to elementary education majors when they are in college. Dickinson State University has begun a collaboration between the Teacher Education Department and the Department of Natural Sciences. The physical science course for elementary education majors has been completely redesigned to focus equally on the needed science content and the science process skills emphasized by the NGSS. The format of the course has been adjusted to more closely mirror a traditional K-5 classroom; the course meets for 50 minutes five days a week. A flipped-classroom model has been adopted to ensure no content is lost, and hands-on activities are done almost every day as new concepts are discussed. In order to judge the effectiveness of these changes, a survey tool was administered to determine if there was a shift in the students' perception of science as an active instead of a passive field of study. The survey also measured the students' comfort-level in offering a hands-on learning environment in their future classrooms and their confidence in their ability to effectively teach science concepts to elementary students. Results from the first year of the study will be presented.

Medical laboratory science and nursing students' perception of academic learning environment in a Philippine university using Dundee Ready Educational Environment Measure (DREEM).

PubMed

Barcelo, Jonathan M

2016-01-01

This study aimed to compare the perception of the academic learning environment between medical laboratory science students and nursing students at Saint Louis University, Baguio City, Philippines. A cross-sectional survey research design was used to measure the perceptions of the participants. A total of 341 students from the Department of Medical Laboratory Science, School of Natural Sciences, and the School of Nursing answered the Dundee Ready Education Environment Measure (DREEM) instrument from April to May 2016. Responses were compared according to course of study, gender, and year level. The total mean DREEM scores of the medical laboratory science students and nursing students did not differ significantly when grouped according to course of study, gender, or year level. Medical laboratory science students had significantly lower mean scores in the sub-domains 'perception of learning' and 'perception of teaching.' Male medical laboratory science students had significantly lower mean scores in the sub-domain 'perception of learning' among second year students. Medical laboratory science students had significantly lower mean scores in the sub-domain 'perception of learning.' Nursing students identified 7 problem areas, most of which were related to their instructors. Medical laboratory science and nursing students viewed their academic learning environment as 'more positive than negative.' However, the relationship of the nursing instructors to their students needs improvement.

Exploring Earth's Ionosphere with CINDI: Bringing an Upper Atmosphere Mission into Pre-College Classrooms

NASA Astrophysics Data System (ADS)

Urquhart, M. L.; Hairston, M. R.; Richardson, J. M.; Olson, C.

2003-12-01

We will present the Education and Public Outreach work in progress for the joint Air Force/NASA project CINDI (Coupled Ion Neutral Dynamic Investigation), which will launch in early 2004 on a US Air Force C/NOFS (Communications/Navigations Outage Forecast System) Satellite. CINDI, in conjunction with the other instruments on C/NOFS, will study how radio signals sent through the ionosphere are affected by variability with this layer of the atmosphere. The Educational outreach for CINDI is focused on helping students, educators, and the general public better understand the link between the ionosphere and our technological civilization. The ionosphere is typically neglected in pre-college science classes despite its impact on modern society and the substantial resources invested by funding agencies on furthering our understanding of this atmospheric layer. Our approach is to increase student understanding of the terrestrial ionosphere and Sun-Earth connections through strong connections to existing pre-college curricula and standards. We have created a partnership between the William B. Hanson Center for Space Sciences and the Science Education Program within the University of Texas at Dallas (UTD) to produce a quality Educator Guide and a Summer Educator Workshop. A senior graduate student in physics and an experienced middle school educator in UTD's Science Education Master of Science Teaching Program have been partnered to ensure that our the Educator Guide and Workshop will contain both science and pedagogy, and be easily integrated into secondary science classes. The summer 2004 workshop will be offered in the Dallas area, which has a significant population of minority and economically disadvantaged students. We will recruit teachers from districts that serve a large number of underserved/underrepresented students. The Educator Guide and workshop materials will be made available on the CINDI Web site for distribution to a national audience.

Increasing student engagement in science through field-based research: University of Idaho's WoW STEMcore Program

NASA Astrophysics Data System (ADS)

Squires, A. L.; Boylan, R. D.; Rittenburg, R.; Boll, J.; Allan, P.

2013-12-01

A recent statewide survey assessing STEM perceptions in Idaho showed that high school student interest in science and preparation for college are declining. To address this decline we are piloting an interdisciplinary, community and field-based water science education approach for 10th - 12th grade science courses during the 2013-14 school year called WoW STEMcore. The program is led by graduate students in the University of Idaho (UI) Waters of the West (WoW) program. Our methods are based on proven best practices from eight years of NSF GK-12 experience at UI and over a decade of GK-12 experience at more than 300 programs in the U.S. WoW STEMcore works to strengthen partnerships between WoW graduate students, high school teachers, and regional organizations that work on natural resource management or place-based science education with the intent of sustaining and merging efforts to increase scientific literacy among high school students and to better prepare them for higher education. In addition, graduate students gain outreach, education and communication experience and teachers are exposed to new and relevant research content and methods. WoW STEMcore is fostering these partnerships through water themed projects at three northern Idaho high schools. The pilot program will culminate in Spring 2014 with a regional Water Summit in which all participating students and partners will converge at a two-day youth scientific conference and competition where they can showcase their research and the skills they gained over the course of the year. We hypothesize that through a graduate student-led, field-based program that gets students out of the classroom and thinking about water resource issues in their communities, we will 1) fuel high school students' interest in science through hands on and inquiry-based pedagogy and 2) improve preparation for higher education by providing graduate student mentors to discuss the pathway from high school to college to a career. In this presentation, we will share lessons learned from the first semester of the program, including the planning and design of the program, building partnerships, and leading high school students through the research process. We will also present preliminary results from a pre- and mid-year evaluation of student attitudes towards science and higher education.

Using Science Fiction in the Classroom

NASA Astrophysics Data System (ADS)

Lebofsky, L. A.; Lebofsky, N. R.

2002-09-01

At the University of Arizona, all non-science majors are required to take two Tier 1 and one Tier 2 General Education science classes. These are the only science classes that most of these students will take at the University. This includes all future K-8 certified teachers --- our future teachers of science. Improving reading comprehension in science and improving writing skills are two of the main requirements of the General Education classes. For my 150 -- 300 students (1 -- 2 classes per semester) I have chosen to use science fiction stories to meet part of these requirements. This assignment provides for assessment of students' writing in several ways: As an alternative assessment: connecting the course material to what they have read. As an alternative assessment: student knowledge of science and technology in general. This assignment also provides for assessment of their comprehension of the authors' application of science fact: Making students aware of how our science knowledge and technology have changed in the years since these books were written (30 -- 140 years ago). Students are required to turn in a short draft version of the assignment about halfway through the semester. They receive feedback on their format (i.e., following directions), appropriateness of chosen topics, spelling, grammar, etc. Books are chosen at a variety of reading levels to accommodate a range of proficiencies, including choices appropriate for students with limited proficiency in English and those with learning disabilities. The books that we are presently using and examples of student writing will be displayed. This work was supported in part with a grant from the Department of Education (AzTEC).

What Effects Do Didactic Interventions Have on Students' Attitudes Towards Science? A Meta-Analysis

NASA Astrophysics Data System (ADS)

Aguilera, David; Perales-Palacios, F. Javier

2018-03-01

Improving the attitudes of students towards science is one of the main challenges facing the teaching of the subject. The main objective of this study is to analyze the effect of students' attitudes towards science through different didactic interventions. The bibliographic search was carried out via the Web of Science database, specifically in the Education and Educational Research category, obtaining a population of 374 articles published between 2006 and 2016. We included studies with pre-experimental or quasi-experimental design that used pretest and posttest phases. Following the application of the inclusion criteria, 24 articles were selected with which a random effects meta-analysis was adopted, obtaining an average effect size of 0.54. Three moderating variables were analyzed, with a significant correlation between the type of teaching strategy and the effect of the attitude towards Science (Q = 23.17; df = 8; p < .01; R 2 = 0.05). The educational implications are mainly due to the importance of the teaching/learning strategy used in science education in the development of positive attitudes towards the subject, and the need to increase the number of Didactic Interventions that contemplate students' attitudes towards science as a study variable is also advocated.

Addressing the Misconceptions of Middle School Students About Becoming a Scientist or Engineer

NASA Technical Reports Server (NTRS)

Newsom, H. E.; Sorge, C.; Hagerty, J. J.

2000-01-01

Assessment of our educational outreach program shows that students and their parents are excited about space science, but stereotypes about science and scientists drastically effect student attitudes about science and pursuing a technical career.

Parents' Attitudes Towards Science and their Children's Science Achievement

NASA Astrophysics Data System (ADS)

Perera, Liyanage Devangi H.

2014-12-01

Although countries worldwide are emphasizing the importance of science education for technological development and global economic competition, comparative findings from standardized international student assessments reveal a huge gap in science scores between developed and developing countries. Certain developed economies too have made little progress in raising science achievement over the past decade. Despite school improvement being placed high on the policy agenda, the results of such actions have been poor. Therefore, there is a need to explore additional ways in which science achievement can be enhanced. This study focuses on the family and examines whether parents' attitudes towards science (how much they value science and the importance they place on it) can influence their children's science achievement. Individual- and school-level data are obtained from the Program for International Student Assessment 2006 survey for 15 Organisation for Economic Co-operation and Development (OECD) and non-OECD countries. Hierarchical linear modelling is employed to estimate the equations. The findings indicate that parents' attitudes towards science have a positive and statistically significant effect on science achievement, after controlling for other important student- and school-level variables. Moreover, students from poor backgrounds appear to benefit from more positive parental science attitudes as much as students from high socioeconomic status, such that equality of student achievement is not affected. This study recommends that schools and teachers encourage parents to play a more pro-active role in their children's science education, as well as educate parents about the importance of science and strategies that can be adopted to support their children's science learning.

Science Education and Sustainability: A Case-Study in Discussion-Based Learning.

ERIC Educational Resources Information Center

Gayford, Chris

1995-01-01

Explores links between science education and current developments in environmental education that take account of the concept of sustainability and the impact of local action on global issues. Uses the greenhouse effect as a case-study example with 16-year-old students. Reports that students learned more effectively using a discussion-based…

Exploring Links between Pedagogical Knowledge Practices and Student Outcomes in STEM Education for Primary Schools

ERIC Educational Resources Information Center

Hudson, Peter; English, Lyn; Dawes, Les; King, Donna; Baker, Steve

2015-01-01

Science, technology, engineering, and mathematics (STEM) education is an emerging initiative in Australia, particularly in primary schools. This qualitative research aimed to understand Year 4 students' involvement in an integrated STEM education unit that focused on science concepts (e.g., states of matter, testing properties of materials) and…

UNDERGRADUATE EDUCATION IN THE BIOLOGICAL SCIENCES FOR STUDENTS IN AGRICULTURE AND NATURAL RESOURCES, PROCEEDINGS OF A CONFERENCE.

ERIC Educational Resources Information Center

National Academy of Sciences - National Research Council, Washington, DC.

REPORTED ARE THE PROCEEDINGS OF A 1966 CONFERENCE WHICH DEALT WITH UNDERGRADUATE EDUCATIONAL NEEDS FOR STUDENTS IN AGRICULTURE AND NATURAL RESOURCES. THE 167 EDUCATORS (MOSTLY DEANS AND DIRECTORS OF RESIDENT INSTRUCTION) WHO PARTICIPATED IN THE CONFERENCE REPRESENTED AGRICULTURE, RENEWABLE NATURAL RESOURCES, THE BIOLOGICAL SCIENCES, AND…

Sex and Relationships Education: Whose Responsibility?

ERIC Educational Resources Information Center

Strachan, Amy; Sinclair, Alex

2017-01-01

In the primary science department of an initial teacher training institute, it is the responsibility of educators to ensure that their students enter the education profession with the knowledge and confidence to deliver all areas of the National Curriculum in England programmes of study for science. The authors aim for their students to use…

Minority students in the science classroom: Issues of language, class, race, culture and pedagogy

NASA Astrophysics Data System (ADS)

Sweeney, Aldrin Edward

A considerable proportion of the educationally at-risk students in the K-12 public education system is composed of minority students, either in terms of cultural background, linguistic background, and frequently, both. In particular, satisfactory levels of achievement in science are not being attained by these students. The concerns of this study center on examining and understanding the reasons underlying this situation, with a view to suggesting how these problems of underachievement in science might be addressed. Previous and ongoing educational research concerning these issues suggest that such underachievement may be due to current pedagogical practices which seem to actively discourage these students from achieving any significant measure of academic, educational or professional success. The purpose of this study is thus to explore the beliefs and pedagogical practices of science teachers as they relate to minority students, especially those minority students for whom English is not a first language and who have limited English proficiency (LEP). In the course of this study, the terminology 'minority students' will refer to and be inclusive of cultural and/or language minorities, i.e. those students who differ from the mainstream white American student in terms of cultural background and a native language other than English. Culturally derived usages of non-standard forms of English (e.g. Black English Vernacular) also will be subsumed within this definition of cultural and language minority students. Particular attention will be given to emergent issues relating to current pedagogical practices, also to the science teacher beliefs and epistemological rationales underlying such practices. In exploring these beliefs and pedagogical practices, the study also will seek to delineate and to understand the various problems which are being encountered in the teaching of science to minority students. As the result of exploring the beliefs and pedagogical practices of science teachers as they relate to minority students, it is intended that the completed study will contribute toward the development and elaboration of a substantive pedagogical content knowledge base for science teachers of cultural and language minority students. It is anticipated that the development of such a knowledge base will be of practical assistance to science teachers in their pedagogical decisions such that a greater inclusion of these students in the science discourse community may be attained.

Making the Most of a Limited Opportunity: Empowering our Future Earth Science Educators by Engaging Them in Field-Based Inquiry.

NASA Astrophysics Data System (ADS)

Levy, R.; David, H.; Carlson, D.; Kunz, G.

2004-12-01

Geoscience courses that engage students in our K-12 learning environments represent a fundamental method to increase public awareness and understanding of Earth systems science. K-12 teachers are ultimately responsible for developing and teaching these courses. We recognize that it is our role as university instructors to ensure that our future K-12 teachers receive a high-quality and practical Earth science education; unfortunately many education majors at our institution receive no formal exposure to geoscience. Furthermore, for those students who choose to take a geoscience course, the experience is typically limited to a large introductory lecture-lab. While these courses are rich in content they neither provide opportunities for students to experience `real' Earth science nor address the skills required to teach Earth science to others. In 2002 we began to develop a field-based introductory geoscience course designed specifically for education students. Our major goal was to attract education majors and provide a field-based geoscience learning experience that was challenging, exciting, and directly applicable to their chosen career. Specific objectives of our project were to: (1) teach geoscience concepts and skills that K-12 teachers are expected to understand and teach to their students (outlined in national standards); (2) provide students with an opportunity to learn through scientific inquiry; (3) enhance student confidence in their ability to teach geoscience in the K-12 classroom. We piloted a two-week field course during summer 2004. The field excursion followed a route through Nebraska and Wyoming. Instructors focused on exposing students to the Earth systems concepts and content outlined in national education standards. The primary instructional approach was to engage students in inquiry-based learning. Students were provided many opportunities to utilize science process skills including: observation, documentation, classification, questioning, formulation of hypotheses and models, and interpretation and debate. Evening `classes' on effective teaching practices were conducted at camp. A mobile library, comprising a range of K-12 Earth science curricular materials and activities, was provided for students to utilize, examine, and critique. Students were given sample boxes so that they could collect and curate Earth materials to build their own `teaching set'. Digital cameras were used to record images of natural phenomena. Each student will receive a DVD of the images to use in their future classroom activities. Near the end of the course students were asked to generate a series of lesson plans to teach plate tectonics. Evaluation of our pilot project comprised a series of pre and post instruments to measure: geoscience content knowledge, science process skills, confidence for teaching science related courses, self-efficacy for self-regulation, and student perceptions of classroom knowledge-building. Results indicate significant gains in all measures. The course instructors have also spent time reflecting on instructional approach and associated activities and will use student feedback to modify and improve the course for the future. We are currently applying the evaluation instruments to education majors taking a large lecture-lab course in order to compare outcomes between the two course models. Results will help guide future geoscience education course development.

Safety Education and Science.

ERIC Educational Resources Information Center

Ralph, Richard

1980-01-01

Safety education in the science classroom is discussed, including the beginning of safe management, attitudes toward safety education, laboratory assistants, chemical and health regulation, safety aids, and a case study of a high school science laboratory. Suggestions for safety codes for science teachers, student behavior, and laboratory…

Science Instructors' Perceptions of the Risks of Biotechnology: Implications for Science Education

ERIC Educational Resources Information Center

Gardner, Grant Ean; Jones, M. Gail

2011-01-01

Developing scientifically literate students who understand the socially contextualized nature of science and technology is a national focus of science education reform. Science educators' perceptions of risks and benefits of new technologies (such as biotechnology) may shape their instructional approaches. This study examined the perceived risk of…

Transforming Elementary Science Teacher Education by Bridging Formal and Informal Science Education in an Innovative Science Methods Course

NASA Astrophysics Data System (ADS)

Riedinger, Kelly; Marbach-Ad, Gili; Randy McGinnis, J.; Hestness, Emily; Pease, Rebecca

2011-02-01

We investigated curricular and pedagogical innovations in an undergraduate science methods course for elementary education majors at the University of Maryland. The goals of the innovative elementary science methods course included: improving students' attitudes toward and views of science and science teaching, to model innovative science teaching methods and to encourage students to continue in teacher education. We redesigned the elementary science methods course to include aspects of informal science education. The informal science education course features included informal science educator guest speakers, a live animal demonstration and a virtual field trip. We compared data from a treatment course ( n = 72) and a comparison course ( n = 26). Data collection included: researchers' observations, instructors' reflections, and teacher candidates' feedback. Teacher candidate feedback involved interviews and results on a reliable and valid Attitudes and Beliefs about the Nature of and the Teaching of Science instrument. We used complementary methods to analyze the data collected. A key finding of the study was that while benefits were found in both types of courses, the difference in results underscores the need of identifying the primary purpose for innovation as a vital component of consideration.

Perceptions of final-year nursing students on the facilities, resources and quality of education provided by schools in Turkey.

PubMed

Güner, Perihan

2015-01-01

The purpose of this study is to determine the perceptions of final-year nursing students regarding the adequacy of education, resources and internships in preparation for graduation. The study design was a descriptive cross-sectional study of nursing students (n: 1804) in their final year of education and questionnaires were used to collect data. Information related to student-to-instructor ratios and internships was obtained from each institution. Most students reported receiving instruction or supervision by lecturers and clinicians who did not specialise in the field. Overall, students did not find the facilities, educational or technological resources and the quality of education offered by their respective schools adequate. The proportion of students who found the level of theoretical education, clinical practice and instructor support adequate was higher in state university colleges of nursing/faculties of health sciences than in state university schools of health sciences.

Design of a Teacher-Student Research Program Using the Spitzer Space Telescope

NASA Astrophysics Data System (ADS)

Pompea, S. M.; Daou, D.; Thaller, M.

2004-12-01

Under the sponsorship of the NASA Spitzer Science Center, we have designed a program for teacher and student research using observing time on the Spitzer Space Telescope. The participating teachers attended a fall, 2004 workshop to become familiar with the Spitzer Science Center Archives, observation planning process, and telescope and instrument capabilities in order to plan observations. They also received fundamental training in infrared astronomy and infrared observational techniques, before they began planning their observing program. This program has as its goals the fundamental NASA goals of inspiring and motivating students to pursue careers in science, technology, engineering, and mathematics as well as to engage the public in shaping and sharing the experience of exploration and discovery. Our educational plan addresses the OSS/NASA objectives of improving student proficiency in science and improving science instruction by providing a unique opportunity to a group of teachers and students to observe with the Spitzer Space Telescope and work with infrared archival data. This program allows a team of 12 teachers and their students to utilize up to 3 hours of Director's discretionary observing time on the Spitzer Space Telescope for educational observations. With the goal of leveraging on a well-established teacher professional development, the program serves teachers in the NSF-sponsored Teacher Leaders in Research Based Science Education (TLRRBSE), an ongoing Public Affairs and Educational Outreach Department program at the National Optical Astronomy Observatory (NOAO) in Tucson. The program touches the formal education community through a national audience of well-trained and supported middle and high school teachers. There are currently 68 teachers (and their students) participating in TLRBSE with an additional 57 teachers in the still-supported precursor RBSE program. The Spitzer educational research program also reaches an additional national audience of students through an informal education program based at the University of Arizona's Astronomy Camp, directed by Dr. Don McCarthy, who has been active in both the RBSE and TLRBSE programs. The TLRBSE Project is funded by the National Science Foundation under ESI 0101982, funded through the AURA/NSF Cooperative Agreement AST-9613615. NOAO is operated by the Association of Universities for Research in Astronomy (AURA), Inc. under cooperative agreement with the National Science Foundation. JPL manages the Spitzer Space Telescope mission for NASA's Science Mission Directorate, Washington. Science operations are conducted at the Spitzer Science Center at the California Institute of Technology in Pasadena. JPL is a division of Caltech.

Atmosphere Kits: Hands-On Learning Activities with a Foundation in NASA Earth Science Missions.

NASA Astrophysics Data System (ADS)

Teige, V.; McCrea, S.; Damadeo, K.; Taylor, J.; Lewis, P. M., Jr.; Chambers, L. H.

2016-12-01

The Science Directorate (SD) at NASA Langley Research Center provides many opportunities to involve students, faculty, researchers, and the citizen science community in real world science. The SD Education Team collaborates with the education community to bring authentic Earth science practices and real-world data into the classroom, provide the public with unique NASA experiences, engaging activities, and advanced technology, and provide products developed and reviewed by science and education experts. Our goals include inspiring the next generation of Science, Technology, Engineering and Mathematics (STEM) professionals and improving STEM literacy by providing innovative participation pathways for educators, students, and the public. The SD Education Team has developed Atmosphere activity kits featuring cloud and aerosol learning activities with a foundation in NASA Earth Science Missions, the Next Generation Science Standards, and The GLOBE Program's Elementary Storybooks. Through cloud kit activities, students will learn how to make estimates from observations and how to categorize and classify specific cloud properties, including cloud height, cloud cover, and basic cloud types. The purpose of the aerosol kit is to introduce students to aerosols and how they can affect the colors we see in the sky. Students will engage in active observation and reporting, explore properties of light, and model the effects of changing amounts/sizes or aerosols on sky color and visibility. Learning activity extensions include participation in ground data collection of environmental conditions and comparison and analysis to related NASA data sets, including but not limited to CERES, CALIPSO, CloudSat, and SAGE III on ISS. This presentation will provide an overview of multiple K-6 NASA Earth Science hands-on activities and free resources will be available.

The educational effects of mobile learning on students of medical sciences: A systematic review in experimental studies.

PubMed

Koohestani, Hamid Reza; Soltani Arabshahi, Seyed Kamran; Fata, Ladan; Ahmadi, Fazlollah

2018-04-01

The demand for mobile learning in the medical science educational program is increasing. The present review study gathers evidence highlighted by the experimental studies on the educational effects of mobile learning for medical science students. The study was carried out as a systematic literature search published from 2007 to July 2017 in the databases PubMed/Medline, Cumulative Index to Nursing and Allied Health Literature (CINAHL), Web of Knowledge (Thomson Reuters) , Educational Resources and Information Center (ERIC), EMBASE (Elsevier), Cochrane library, PsycINFO and Google Scholar. To examine quality of the articles, a tool validated by the BEME Review was employed. Totally, 21 papers entered the study. Three main themes emerged from the content of papers: (1) improvement in student clinical competency and confidence, (2) acquisition and enhancing of students' theoretical knowledge, and (3) students' positive attitudes to and perception of mobile learning. Level 2B of Kirkpatrick hierarchy had been examined by all the papers and seven of them had reported two or more outcome levels, but level 4 was not reported in the papers. Our review showed that the students of medical sciences had positive response and attitudes to mobile learning. Moreover, implementation of mobile learning in medical sciences program might lead to valuable educational benefits and improve clinical competence and confidence along with theoretical knowledge, attitudes, and perception of mobile learning. The results indicated that mobile learning strategy in medical education can positively affect learning in all three domains of Bloom's Taxonomy.

A Solid Earth educational module, co-operatively developed by scientists and high school teachers through the Scripps Classroom Connection GK12 Program

NASA Astrophysics Data System (ADS)

Ziegler, L. B.; van Dusen, D.; Benedict, R.; Chojnacki, P. R.; Peach, C. L.; Staudigel, H.; Constable, C.; Laske, G.

2010-12-01

The Scripps Classroom Connection, funded through the NSF GK-12 program, pairs local high school teachers with Scripps Institution of Oceanography (SIO) graduate students in the earth and ocean sciences for their mutual professional development. An integral goal of the program is the collaborative production of quality earth science educational modules that are tested in the classroom and subsequently made freely available online for use by other educators. We present a brief overview of the program structure in place to support this goal and illustrate a module that we have developed on the Solid Earth & Plate Tectonics for a 9th grade Earth Science classroom. The unit includes 1) an exercise in constructing a geomagnetic polarity timescale which exposes students to authentic scientific data; 2) activities, labs, lectures and worksheets that support the scientific content; and 3) use of online resources such as Google Earth and interactive animations that help students better understand the concepts. The educational unit is being implemented in two separate local area high schools for Fall 2010 and we will report on our experiences. The co-operative efforts of teachers and scientists lead to educational materials which expose students to the scientific process and current science research, while teaching basic concepts using an engaging inquiry-based approach. In turn, graduate students involved gain experience communicating their science to non-science audiences.

From Local to EXtreme Environments (FLEXE) Student-Scientist Online Forums: hypothesis-based research examining ways to involve scientists in effective science education

NASA Astrophysics Data System (ADS)

Goehring, L.; Carlsen, W.; Fisher, C. R.; Kerlin, S.; Trautmann, N.; Petersen, W.

2011-12-01

Science education reform since the mid-1990's has called for a "new way of teaching and learning about science that reflects how science itself is done, emphasizing inquiry as a way of achieving knowledge and understanding about the world" (NRC, 1996). Scientists and engineers, experts in inquiry thinking, have been called to help model these practices for students and demonstrate scientific habits of mind. The question, however, is "how best to involve these experts?" given the very real challenges of limited availability of scientists, varying experience with effective pedagogy, widespread geographic distribution of schools, and the sheer number of students involved. Technology offers partial solutions to enable Student-Scientist Interactions (SSI). The FLEXE Project has developed online FLEXE Forums to support efficient, effective SSIs, making use of web-based and database technology to facilitate communication between students and scientists. More importantly, the FLEXE project has approached this question of "how best to do this?" scientifically, combining program evaluation with hypothesis-based research explicitly testing the effects of such SSIs on student learning and attitudes towards science. FLEXE Forums are designed to showcase scientific practices and habits of mind through facilitated interaction between students and scientists. Through these Forums, students "meet" working scientists and learn about their research and the environments in which they work. Scientists provide students with intriguing "real-life" datasets and challenge students to analyze and interpret the data through guiding questions. Students submit their analyses to the Forum, and scientists provide feedback and connect the instructional activity with real-life practice, showcasing their activities in the field. In the FLEXE project, Forums are embedded within inquiry-based instructional units focused on essential learning concepts, and feature the deep-sea environment in contrast to students' local environments to deepen students' understanding of earth systems processes. This presentation will provide an overview of the FLEXE project, a partnership between the Ridge2000 research scientists, science learning researchers, and educators, and will report findings from pilot studies implemented in collaboration with the GLOBE program, a worldwide network of scientists, science educators, and their students. FLEXE Forums have been tested with approximately 1400 students in the US, Germany, Australia and Thailand in 2009, and 1100 students in the US, Thailand, England and Costa Rica in 2010. Description of research methods (e.g., educational hypotheses, assessment of student learning and attitudes through analysis of student writing, and "quick question" surveys) and results will be shared, along with current tests examining the transferability of the approach to other scientists/science educator teams.

Reflections of Educators in Pursuit of Inclusive Science Classrooms

NASA Astrophysics Data System (ADS)

Kirch, Susan A.; Bargerhuff, Mary Ellen; Cowan, Heidi; Wheatly, Michele

2007-08-01

General education science teachers are meeting increasingly diverse classrooms of students that include students with disabilities. A one-week, summer, residential workshop was offered to interested science and special educators who worked through lab experiments one-on-one with students with physical or sensory disabilities (grades 7-12). To determine how effective this professional development workshop was at raising disability awareness and providing teacher training in inclusive science teaching practices, a combination of survey and reflective journal entries was used to monitor participants’ experience. Here we discuss the findings from this benchmark study and discuss how others might adapt this professional development model for use by schools interested in moving toward inclusive practices.

GeoBrain for Facilitating Earth Science Education in Higher-Education Institutes--Experience and Lessons-learned

NASA Astrophysics Data System (ADS)

Deng, M.; di, L.

2007-12-01

Data integration and analysis are the foundation for the scientific investigation in Earth science. In the past several decades, huge amounts of Earth science data have been collected mainly through remote sensing. Those data have become the treasure for Earth science research. Training students how to discover and use the huge volume of Earth science data in research become one of the most important trainings for making a student a qualified scientist. Being developed by a NASA funded project, the GeoBrain system has adopted and implemented the latest Web services and knowledge management technologies for providing innovative methods in publishing, accessing, visualizing, and analyzing geospatial data and in building/sharing geoscience knowledge. It provides a data-rich online learning and research environment enabled by wealthy data and information available at NASA Earth Observing System (EOS) Data and Information System (EOSDIS). Students, faculty members, and researchers from institutes worldwide can easily access, analyze, and model with the huge amount of NASA EOS data just like they possess such vast resources locally at their desktops. Although still in development, the GeoBrain system has been operational since 2005. A number of education materials have been developed for facilitating the use of GeoBrain as a powerful education tool for Earth science education at both undergraduate and graduate levels. Thousands of online higher-education users worldwide have used GeoBrain services. A number of faculty members in multiple universities have been funded as GeoBrain education partners to explore the use of GeoBrain in the classroom teaching and student research. By summarizing and analyzing the feedbacks from the online users and the education partners, this presentation presents the user experiences on using GeoBrain in Earth science teaching and research. The feedbacks on classroom use of GeoBrain have demonstrated that GeoBrain is very useful for facilitating the transition of both undergraduate and graduate students from learners to investigators. They feedbacks have also shown the system can improve teaching effectiveness, refine student's learning habit, and inspire students" interests in pursuing Earth sciences as their career. The interaction with the education users of GeoBrain provides much needed guidance and lessens-learned for future development and promotion of GeoBrain.

Science in action: An interdisciplinary science education program

NASA Technical Reports Server (NTRS)

Horton, Linda L.

1992-01-01

Science in Action is an education outreach program for pre-collegiate students. It is based on the concept that, in order to interest students in science, they must see science and scientists at work. The program encompasses the full range of scientific disciplines - the core sciences, engineering, and mathematics. A unique aspect of the program is the involvement and support of scientists and engineers representing local professional societies, industries, business, and academic institutions. An outline of the program is given.

Structure of Black Male Students Academic Achievement in Science

NASA Astrophysics Data System (ADS)

Rascoe, Barbara

Educational policies and practices have been largely unsuccessful in closing the achievement gap between Black and White students "Schwartz, 2001". This achievement gap is especially problematic for Black students in science "Maton, Hrabrowski, - Schmitt, 2000. Given the fact that the Black-White achievement gap is still an enigma, the purpose of this article is to address the Black female-Black male academic achievement gap in science majors. Addressing barriers that Black male students may experience as college science and engineering majors, this article presents marketing strategies relative to politics, emotional intelligence, and issues with respect to how science teaching, and Black male students' responses to it, are different. Many Black male students may need to experience a paradigm shift, which structures and enhances their science achievement. Paradigm shifts are necessary because exceptional academic ability and motivation are not enough to get Black males from their first year in a science, technology, education, and mathematics "STEM" major to a bachelor's degree in science and engineering. The conclusions focus on the balance of truth-slippery slopes concerning the confluence of science teachers' further ado and Black male students' theories, methods, and values that position their academic achievement in science and engineering majors.

Canopy in the Clouds: Integrating Science and Media to Inspire a New Generation of Scientists

NASA Astrophysics Data System (ADS)

Goldsmith, G. R.; Fulton, A. D.; Witherill, C. D.

2008-12-01

Innovative approaches to science education are critical for inspiring a new generation of scientists. In a world where students are inundated with digital media inviting them to explore exciting, emerging disciplines, science often lags behind in using progressive media techniques. Additionally, science education media often neglects to include the scientists conducting research, thereby disconnecting students from the excitement, adventure, and beauty of conducting research in the field. Here we present initial work from a science education media project entitled Canopy in the Clouds. In particular, we address the goals and approach of the project, the logistics associated with generating educational material at a foreign field site, and the challenges associated with effectively integrating science and media. Canopy in the Clouds is designed to engage students in research, motivate a new generation of young scientists, and promote conservation from the perspective of a current research project being conducted in the canopy of a tropical montane cloud forest located in Monteverde, Costa Rica. The project seeks to generate curriculum based on multiple, immersive forms of novel digital media that attract and maintain student attention. By doing so from the perspective of an adventurous research project in a beautiful and highly biodiverse region, we hope to engage students in science and enhance bioliteracy. However, there are considerable logistic considerations associated with such an approach, including safety, travel, permitting, and equipment maintenance. Additionally, the goals of both the scientific research and the educational media project must be balanced in order to meet objectives in a timely fashion. Finally, materials generated in the field must be translated to viable final products and distributed. Work associated with Canopy in the Clouds will thus provide insight into this process and can serve to inform future science education and outreach efforts.

Defining a Mechanism of Educational Interface Between NASA Life Sciences the Nation's Students

NASA Technical Reports Server (NTRS)

Chamberland, D.; Dreschel, T.; Coulter, G.

1995-01-01

Harnessing our greatest national resource, as represented by the nation's students, will require a thoughtful, well developed and administered program that includes precise, executable strategies and valid evaluation tools. Responding to a national education outreach priority, the National Aeronautics and Space Administration's Life and Biomedical Sciences and Applications Division has initiated a process or organizing and implementing various strategies through a steering committee that includes representatives from Headquarters and three field centers with major Life Sciences programs. The mandate of the Life Sciences Education Outreach Steering Committee is to develop ways of communicating space life science issues to America's students through the nation's teachers by curriculum enhancement and direct participation in the education process with an emphasis in the primary and secondary schools. Metrics are also developed for each individually defined process so that the mechanis can be continuously refined and improved.

Reversing the standard direction: Science emerging from the lives of African American students

NASA Astrophysics Data System (ADS)

Seiler, Gale

2001-11-01

Recognizing the persistent science achievement gap between inner-city African American students and students from mainstream, White society, this article suggests that the imposition of external standards on inner-city schools will do little to ameliorate this gap because such an approach fails to address the significance of the social and cultural lives of the students. Instead, it is suggested that the use of critical ethnographic research would enable educators to learn from the students how science education can change to meet their aims and interests. The article includes a report on how a science lunch group in an inner-city high school forged a community based on respect and caring and how this community afforded African American male teens the opportunity to participate in science in new ways.

Becoming a scientist: A qualitative study of the educational experience of undergraduates working in an American and a Brazilian research laboratory

NASA Astrophysics Data System (ADS)

Pascoa, Maria Beatriz Amorim

Because the production of scientific and technological innovations has been at the center of debates for economic growth, scientists are recognized as important actors in the current global market. In this study, I will examine the undergraduate education of future scientists by focusing on students working in research projects of faculty members. This research activity has been promoted by American and Brazilian public agencies as an attempt to attract more college students to scientific careers as well as to improve their future performance in science. Evaluations of these programs have focused on important quantitative indicators focusing mainly on the amount of students that later choose to pursue scientific careers. However, these studies fail to address important educational aspects of undergraduates' experience. In this research, I explore the educational processes taking place as students are introduced to the making of science in order to understand how and what they are learning. Three bodies of literature illuminates the formulation and the analysis of the research questions: (1) theories of globalization situate the education of scientists within the dynamics of a broader social, economic, cultural, and historical framework; (2) the critical pedagogy of Paulo Freire is the basis for the understanding of the pedagogical processes shaping undergraduate students' experiences within the research site; (3) Critical and Cultural Studies of Science and Technology illuminate the analysis of the complex interactions and practices constructed within the laboratory. In order to understand the educational processes shaping the experiences of undergraduate students engaged in research activities, I conducted a qualitative investigation based on participant-observation and in-depth interviews in an American and a Brazilian laboratories. The two sites constituted insightful case studies that illuminated the understanding of inquires about the training of students in science. In addition, the study of two countries enriched the research inquiry, adding to the findings reflections on the ways differences in national contexts affects scientific training and scientific practices. Mainly, this qualitative research of students in laboratories offers some concrete recommendations and illuminating reflections for science educators, science policy makers, and for those working in the understanding of science epistemologies.

Earth Science Outreach: A Move in the Right Direction

NASA Astrophysics Data System (ADS)

McLarty Halfkenny, B.; Schröder Adams, C.

2009-05-01

There is concern within the Geoscience Community about the public's limited understanding of Earth Science and its fundamental contribution to society. Earth Science plays only a minor role in public school education in Ontario leaving many students to stumble upon this field of study in post-secondary institutions. As the Earth Sciences offer relevant advice for political decisions and provide excellent career opportunities, outreach is an increasingly important component of our work. Recruitment of post-secondary students after they have chosen their discipline cannot remain the sole opportunity. Outreach must be directed to potential students at an early stage of their education. High school teachers are influential, directing students towards professional careers. Therefore we are first committed to reach these teachers. We provide professional development, resources and continued support, building an enthusiastic community of educators. Specific initiatives include: a three day workshop supported by a grant from EdGEO introducing earth science exercises and local field destinations; a resource kit with minerals, rocks, fossils, mineral identification tools and manuals; a CD with prepared classroom exercises; and in-class demonstrations and field trip guiding on request. Maintaining a growing network with teachers has proven highly effective. Direct public school student engagement is also given priority. We inspire students through interaction with researchers and graduate students, hand-on exercises, and by providing opportunities to visit our department and work with our collections. Successful projects include our week-long course "School of Rock" for the Enrichment Mini-Course Program, classroom visits and presentations on the exciting and rewarding career paths in geology during Carleton University open houses. Outreach to the general public allows us to educate the wider community about the Geoheritage of our region, and initiate discussions about science and global issues such as climate science and stewardship of our natural resources. A new initiative for Science and Technology Week, 'Explore Geoheritage Day' introduced the public to the geological history of the National Capital Region. We have found collaborations with other agencies very effective. We work with PDAC's "Mining Matters", LTS, the Ottawa Gatineau Geoheritage Project, Ottawa Heritage, STAO, local school boards, naturalist groups, and other community organizations to promote Earth Science education. Our efforts over the last 5 years have brought tangible results in: a) a considerable increase in student enrolment at the university level in our department; b) increased teaching of the Grade 12 Earth and Space Sciences course at local high schools through teachers who were inspired by our workshops; c) a flourishing network of enthusiastic earth science educators sharing ideas with us to define each other's needs; and d) a growing interaction with the general public. Future initiatives need to consider lobbying for curriculum changes to give Earth Science a prominent place in the public education system. As well, only few university education departments currently allow Earth Science graduates into their programs, requiring them to first take additional courses in other "teachable" subjects. This must change. University graduates with an Earth Science degree and an interest in teaching must be permitted direct entry into these programs so that their skills will be passed on to the next generation of science students.

Standards-Based External Exams and Students' Science-Related Career Expectations: An International Perspective

ERIC Educational Resources Information Center

Han, Seong Won

2016-01-01

Students' science-related career expectations are important for predicting their future science, technology, engineering, and mathematics (STEM)-related educational and occupational attainments. This study examines the degree to which standards-based external examinations are associated with a student's propensity for pursuing science-related…

Looking in a Science Classroom: Exploring Possibilities of Creative Cultural Divergence in Science Teaching and Learning

ERIC Educational Resources Information Center

Baron, Alex; Chen, Hsiao-Lan Sharon

2012-01-01

Worldwide proliferation of pedagogical innovations creates expanding potential in the field of science education. While some teachers effectively improve students' scientific learning, others struggle to achieve desirable student outcomes. This study explores a Taiwanese science teacher's ability to effectively enhance her students' science…

CosmoQuest: Training Educators and Engaging Classrooms in Citizen Science through a Virtual Research Facility

NASA Astrophysics Data System (ADS)

Buxner, Sanlyn; Bracey, Georgia; Summer, Theresa; Cobb, Whitney; Gay, Pamela L.; Finkelstein, Keely D.; Gurton, Suzanne; Felix-Strishock, Lisa; Kruse, Brian; Lebofsky, Larry A.; Jones, Andrea J.; Tweed, Ann; Graff, Paige; Runco, Susan; Noel-Storr, Jacob; CosmoQuest Team

2016-10-01

CosmoQuest is a Citizen Science Virtual Research Facility that engages scientists, educators, students, and the public in analyzing NASA images. Often, these types of citizen science activities target enthusiastic members of the public, and additionally engage students in K-12 and college classrooms. To support educational engagement, we are developing a pipeline in which formal and informal educators and facilitators use the virtual research facility to engage students in real image analysis that is framed to provide meaningful science learning. This work also contributes to the larger project to produce publishable results. Community scientists are being solicited to propose CosmoQuest Science Projects take advantage of the virtual research facility capabilities. Each CosmoQuest Science Project will result in formal education materials, aligned with Next Generation Science Standards including the 3-dimensions of science learning; core ideas, crosscutting concepts, and science and engineering practices. Participating scientists will contribute to companion educational materials with support from the CosmoQuest staff of data specialists and education specialists. Educators will be trained through in person and virtual workshops, and classrooms will have the opportunity to not only work with NASA data, but interface with NASA scientists. Through this project, we are bringing together subject matter experts, classrooms, and informal science organizations to share the excitement of NASA SMD science with future citizen scientists. CosmoQuest is funded through individual donations, through NASA Cooperative Agreement NNX16AC68A, and through additional grants and contracts that are listed on our website, cosmoquest.org.

Impact of SCALE-UP on science teaching self-efficacy of students in general education science courses

NASA Astrophysics Data System (ADS)

Cassani, Mary Kay Kuhr

The objective of this study was to evaluate the effect of two pedagogical models used in general education science on non-majors' science teaching self-efficacy. Science teaching self-efficacy can be influenced by inquiry and cooperative learning, through cognitive mechanisms described by Bandura (1997). The Student Centered Activities for Large Enrollment Undergraduate Programs (SCALE-UP) model of inquiry and cooperative learning incorporates cooperative learning and inquiry-guided learning in large enrollment combined lecture-laboratory classes (Oliver-Hoyo & Beichner, 2004). SCALE-UP was adopted by a small but rapidly growing public university in the southeastern United States in three undergraduate, general education science courses for non-science majors in the Fall 2006 and Spring 2007 semesters. Students in these courses were compared with students in three other general education science courses for non-science majors taught with the standard teaching model at the host university. The standard model combines lecture and laboratory in the same course, with smaller enrollments and utilizes cooperative learning. Science teaching self-efficacy was measured using the Science Teaching Efficacy Belief Instrument - B (STEBI-B; Bleicher, 2004). A science teaching self-efficacy score was computed from the Personal Science Teaching Efficacy (PTSE) factor of the instrument. Using non-parametric statistics, no significant difference was found between teaching models, between genders, within models, among instructors, or among courses. The number of previous science courses was significantly correlated with PTSE score. Student responses to open-ended questions indicated that students felt the larger enrollment in the SCALE-UP room reduced individual teacher attention but that the large round SCALE-UP tables promoted group interaction. Students responded positively to cooperative and hands-on activities, and would encourage inclusion of more such activities in all of the courses. The large enrollment SCALE-UP model as implemented at the host university did not increase science teaching self-efficacy of non-science majors, as hypothesized. This was likely due to limited modification of standard cooperative activities according to the inquiry-guided SCALE-UP model. It was also found that larger SCALE-UP enrollments did not decrease science teaching self-efficacy when standard cooperative activities were used in the larger class.

The use of parent involved take-home science activities during student teaching: Understanding the challenges of implementation

NASA Astrophysics Data System (ADS)

Zarazinski, Jill

The purpose of this study was to identify student teachers use and implementation of Science in a Bag when it was no longer a required course-based assessment. This take-home science activity acted as the elaboration component of the 5Es lesson teacher candidates designed and taught in the classroom, utilized household items, and directly involved parents in their child's education. The purposeful sample was comprised of six teacher candidates during their student teaching practicum, the last semester of the childhood education teacher certification program. This collective case study centered on student teachers' use of the focused activity, Science in a Bag, in order to gain knowledge of challenges faced in applying take-home science kits and working with parents. Data collection was comprised of student teacher and parent interviews, candidate reflections, as well as in-class observations and discussions carried out during weekly seminars. Data collection occurred throughout the seven-week student teaching practicum. The four research questions were: 1) What factors do teacher candidates identify as interfering with their ability to implement Science in a Bag during student teaching placements? 2) What factors do teacher candidates identify as enhancing their ability to carry out Science in a Bag? 3) What forms of support do teacher candidates believe are important to their success in implementing Science in a Bag during student teaching? 4) How do teacher candidates deal with obstacles when implementing Science in a Bag? Despite the fact that no student teacher was prohibited from implementing Science in a Bag, the level to which candidates valued and utilized this instructional strategy varied compared to how they were taught and practiced it during the science methods course. Some student teachers attempted to hide their feelings toward Science in a Bag, however their actions revealed that they were simply carrying out the instructional strategy because they had agreed to implement it, not because they appreciated its worth to students and their families. Altering candidate beliefs in one semester prior to student teaching proved difficult, especially when cooperating teachers were demonstrating and encouraging methodologies which were frowned upon during the science methods coursework. Therefore, this study also raised issues with teacher education and identified the need to better align educational philosophies taught throughout the program and those showcased by cooperating teachers if science education reform is to transpire. Teacher candidates very often abandoned the inquiry-based modes of instruction taught to them during the science methods course prior to student teaching and replaced them with ideas and suggestions from their cooperating teacher, approaches which were more traditional and teacher-centered. Cooperating teacher opinions and suggestions appeared to take precedence over what was taught and practiced during their preparation coursework. Candidates' prior beliefs and experiences with education appeared to dominate their teaching repertoire. The culmination of their own K-12 education and much of their undergraduate courses made altering their beliefs toward inquiry-based methodologies difficult during only one semester prior to student teaching. Therefore, all candidates reverted back to some level of teacher-centered, recipe-like science lessons and tasks. It was also noted that the candidates' understanding of hands-on versus inquiry learning was often blurred. Hands-on learning was often demonstrated and applauded by cooperating teachers, as well as parents, once they responded to Science in a Bag surveys and interviews, further supporting this misconception by praising hands-on learning and in some cases stating it was the way students learned best. Most parents were willing to and enjoyed performing these take-home family activities. Some of the most frequent parent comments related to family time, being informed about the content their child was learning in school and the child taking on the role of teacher. The level to which candidates acknowledged and embraced student and parent feedback of Science in a Bag differed. Finally, it became apparent that teacher educators need to acknowledge components of instruction outside content and pedagogy. Many candidates had issues when it came to designing lesson materials which were aesthetically pleasing with proper writing quality and conventions. It is clear that this component of teaching is absent and needs to be addressed throughout the program's coursework and during field experience placements. (Abstract shortened by UMI.)

Shoring up the pipeline: A case study of female navigation throughout the science instructional pathway (SIP)

NASA Astrophysics Data System (ADS)

Aclufi, Allison Jill

Female minority students are increasing in numbers as science majors, but are still under-represented when compared to White and Asian males in the workplace. Many factors have been proposed and studied, yet there has been little, if any, longitudinal study of possible exacerbating variables that may play a key role in deterring female minority students from pursuing a science degree and career. This study took a retro-longitudinal look at the experiences of ten successful science undergraduate female minority students. Two major domains already widely covered in the literature were identified: academic experiences and social-capital networks. Based on in-depth interviews, the following trends, in order of magnitude, were noted: students were focused and goal-orientated, insufficient amounts and access to science equipment, lack of science education in elementary school, no after-school science programs, indifferent or resistant stakeholders, males favored in the classroom, parent alienation from schools, inequitable access to academic information, parental encouragement, and a lack of ethnic identity in the context of a science student. Not all of these trends began in elementary school, most began in middle school and exacerbated throughout the remainder of student's K-12 education. The major factors that allowed for these students matriculation into a four-year university as undergraduate science majors was their goal-orientated dedication to a science career, and deliberate expansion of their social-capital networks to facilitate knowledge acquisition mandatory for college acceptance. A large-scale, longitudinal study, following students throughout their entire K-12 education would provide details that may be lost due to memory, and allow for the creation of more effective interventions to reduce student attrition.

Effects of Engineering Design-Based Science on Elementary School Science Students' Engineering Identity Development across Gender and Grade

NASA Astrophysics Data System (ADS)

Capobianco, Brenda M.; Yu, Ji H.; French, Brian F.

2015-04-01

The integration of engineering concepts and practices into elementary science education has become an emerging concern for science educators and practitioners, alike. Moreover, how children, specifically preadolescents (grades 1-5), engage in engineering design-based learning activities may help science educators and researchers learn more about children's earliest identification with engineering. The purpose of this study was to examine the extent to which engineering identity differed among preadolescents across gender and grade, when exposing students to engineering design-based science learning activities. Five hundred fifty preadolescent participants completed the Engineering Identity Development Scale (EIDS), a recently developed measure with validity evidence that characterizes children's conceptions of engineering and potential career aspirations. Data analyses of variance among four factors (i.e., gender, grade, and group) indicated that elementary school students who engaged in the engineering design-based science learning activities demonstrated greater improvements on the EIDS subscales compared to those in the comparison group. Specifically, students in the lower grade levels showed substantial increases, while students in the higher grade levels showed decreases. Girls, regardless of grade level and participation in the engineering learning activities, showed higher scores in the academic subscale compared to boys. These findings suggest that the integration of engineering practices in the science classroom as early as grade one shows potential in fostering and sustaining student interest, participation, and self-concept in engineering and science.

Evaluation of the National Science Foundation Graduate Teaching Fellows in K-12 Education (GK-12) Program.

ERIC Educational Resources Information Center

Mitchell, Julia; Levine, Roger; Gonzalez, Raquel; Bitter, Catherine; Webb, Norman; White, Paul

The GK-12 program of the National Science Foundation is an innovative program for enriching the value of graduate and advanced undergraduate students' education while simultaneously enriching science and mathematics teaching at the K-12 level. GK-12 is a fellowship program that offers graduate students and advanced undergraduates the opportunity…

Extending the Theoretical Framing for Physics Education Research: An Illustrative Application of Complexity Science

ERIC Educational Resources Information Center

Forsman, Jonas; Moll, Rachel; Linder, Cedric

2014-01-01

The viability of using complexity science in physics education research (PER) is exemplified by (1) situating central tenets of student persistence research in complexity science and (2) drawing on the methods that become available from this to illustrate analyzing the structural aspects of students' networked interactions as an important dynamic…

The Impact of a Standards Guided Equity and Problem Solving Institute on Participating Science Teachers and Their Students.

ERIC Educational Resources Information Center

Huber, Richard A.; Smith, Robert W.; Shotsberger, Paul G.

This study examined the effect of a teacher enhancement project combining training on the National Science Education Standards, problem solving and equity education on middle school science teachers' attitudes and practices and, in turn, the attitudes of their students. Participating teachers reported changes in their instructional methods that…

Students' Achievement in Math and Science: How Grit and Attitudes Influence?

ERIC Educational Resources Information Center

Al-Mutawah, Masooma Ali; Fateel, Moosa Jaafar

2018-01-01

Many recent studies in the field of mathematics and science education have been studying the effect of non-cognitive factors in students' achievement such as emotions, attitudes, values, beliefs, motivation, anxiety and grit. For example, attitude has been an important area in science education, and there have been many attempts to measure…

Differences in the Socio-Emotional Competency Profile in University Students from different Disciplinary Area

ERIC Educational Resources Information Center

Castejon, Juan Luis; Cantero, Ma. Pilar; Perez, Nelida

2008-01-01

Introduction: The main objective of this paper is to establish a profile of socio-emotional competencies characteristic of a sample of students from each of the big academic areas in higher education: legal sciences, social sciences, education, humanities, science and technology, and health. An additional objective was to analyse differences…

Exploring Predictors of Health Sciences Students' Attitudes towards Complementary-Alternative Medicine

ERIC Educational Resources Information Center

Pettersen, Sverre; Olsen, Rolf V.

2007-01-01

This study demonstrated that a "less scientific worldview" predicted health science (HS) students' positive attitude towards "complementary-alternative medicine" (CAM), independently of important background characteristics as gender, pre-college science immersion, age, and type of HS education of the students. A total of 473 students in their…

Reading Instruction in Science for Students with Learning Disabilities

ERIC Educational Resources Information Center

Kaldenberg, Erica R.; Watt, Sarah J.; Therrien, William J.

2015-01-01

As a growing number of students with learning disabilities (LD) receive science instruction in general education settings, students with LD continue to perform significantly lower than their non-disabled peers. The shift from textbook-driven instruction to inquiry-based approaches to science learning supports students who struggle with reading.…

High School Students' Implicit Theories of What Facilitates Science Learning

ERIC Educational Resources Information Center

Parsons, Eileen Carlton; Miles, Rhea; Petersen, Michael

2011-01-01

Background: Research has primarily concentrated on adults' implicit theories about high quality science education for all students. Little work has considered the students' perspective. This study investigated high school students' implicit theories about what helped them learn science. Purpose: This study addressed (1) What characterizes high…

Social Cognitive Predictors of Interest in Environmental Science: Recommendations for Environmental Educators

ERIC Educational Resources Information Center

Quimby, Julie L.; Seyala, Nazar D.; Wolfson, Jane L.

2007-01-01

The authors examined the influence of social cognitive variables on students' interest in environmental science careers and investigated differences between White and ethnic minority students on several career-related variables. The sample consisted of 161 undergraduate science majors (124 White students, 37 ethnic minority students). Results of…

Views of Science Teaching and Learning by Immigrant Somali Elders: Perceptions of Conflict and Acceptance

NASA Astrophysics Data System (ADS)

Albrecht, Nancy Jean

The gap between a student's home culture and that of classroom science may create challenges for students and families, especially those from recent immigrant cultures, including refugees. As a result, science learning in schools may require a form of cultural border crossing between home cultures and the culture of classroom science. Given this, as educators, how do we make these borders more porous for better science learning experiences? Using the frameworks of funds of knowledge, culturally relevant pedagogy, and socio-constructivism, this study focuses on the perspectives of Somali-American elders and parents about school science. Designed as an in-depth interview study, five purposefully selected participants were interviewed over a period of two years. The guiding questions for the study included: 1) What are the perceptions of Somali elders about school science? and 2) How do Somali elders believe science teaching and learning can facilitate Somali students' engagement in science?. Analysis of the interview data revealed that Somali-American adults have complicated perceptions of school science that include both conflicts and acceptance with current pedagogy and content. For example, science education was highly valued by both individuals and the Somali community, both as a way for individuals to attain economic prosperity and respect, but also as a way to lift up the Somali diaspora, both here and in their native homeland. On the other hand, science was also viewed as an abstract discipline with little connection to students' and families' everyday home lives. Moreover, due to the intrinsic role that Islam plays in traditional and contemporary Somali culture, several areas of science education, including geology, evolution and sex education, were viewed as problematic and unresolvable. Various potential areas of funds of knowledge and culturally relevant pedagogy were discussed including nutrition, food preparation and storage, health education, and vaccinations. The study discusses several implications for science teachers of Somali-American students including the need to be aware of the intrinsic relationship between Islam, as practiced by Somali-Americans, and everyday practices, including the possibility of cultural violence resulting from the conflicts between science teaching as practiced in the United States, and Somali-American students' beliefs. The study also discusses changes in pedagogy that are experienced by Somali-American families and students, and suggests ways to mitigate these differences. Finally, the study provides suggestions for the roles of science teachers, both in everyday teaching and learning and in their professional development practices, to make science more meaningful, accessible and engaging to Somali-American students and their families.

Preservice Teachers' Memories of Their Secondary Science Education Experiences

NASA Astrophysics Data System (ADS)

Hudson, Peter; Usak, Muhammet; Fančovičová, Jana; Erdoğan, Mehmet; Prokop, Pavol

2010-12-01

Understanding preservice teachers' memories of their education may aid towards articulating high-impact teaching practices. This study describes 246 preservice teachers' perceptions of their secondary science education experiences through a questionnaire and 28-item survey. ANOVA was statistically significant about participants' memories of science with 15 of the 28 survey items. Descriptive statistics through SPSS further showed that a teacher's enthusiastic nature (87%) and positive attitude towards science (87%) were regarded as highly memorable. In addition, explaining abstract concepts well (79%), and guiding the students' conceptual development with practical science activities (73%) may be considered as memorable secondary science teaching strategies. Implementing science lessons with one or more of these memorable science teaching practices may "make a difference" towards influencing high school students' positive long-term memories about science and their science education. Further research in other key learning areas may provide a clearer picture of high-impact teaching and a way to enhance pedagogical practices.

Ciencia en Nepantla: the journey of Nepantler@s in science learning and teaching

NASA Astrophysics Data System (ADS)

Aguilar-Valdez, Jean R.; LópezLeiva, Carlos A.; Roberts-Harris, Deborah; Torres-Velásquez, Diane; Lobo, Gilberto; Westby, Carol

2013-12-01

This paper presents a new approach to science education that takes a path through sociocultural theory and into the ideas of Gloria Anzaldúa. We apply Anzaldúan theory to science education by illustrating it in action through various examples which explore the multidimensionality of teaching science with Latin@ students in various contexts including dual language settings. We present what it is to journey through transformation using examples from educators at various levels of science within the world of teaching science with Latin@ students in the U.S. Our examples illustrate how Latin@ students cross many cultural borders in Spanish, English, Latin@ home culture, school culture, and the world of scientific dialogue and content, and in doing so, go through tensions and transformations between dominant and non-dominant worlds, which should be acknowledged and better understood through Anzaldúan theory. Fundamentally, we present a transformative notion of Latin@ science learning as "living on the bridges" of many dialogic and cultural practices, and having to negotiate these in-between spaces, or " nepantla" (Anzaldúa and Keating in Interviews, Psychology Press, London, 2000), where Latin@ students must contend with the fragmented and sometimes painful struggle of living in racialized reality amidst the demands of a dominant culture, and where transformation and healing are possible through the path of conocimiento. We advocate for teachers to become science teacher nepantler@s, who guide their students through nepantla, and into a new mestiz@ consciousness of science education.

Mentorship: The Education-Research Continuum

DOE Office of Scientific and Technical Information (OSTI.GOV)

Correll, D

2008-05-29

Mentoring of science students stems naturally from the intertwined link between science education and science research. In fact, the mentoring relationship between a student and a scientist may be thought of analogically as a type of double helix forming the 'DNA' that defines the blueprint for the next generation of scientists. Although this analogy would not meet the rigorous tests commonly used for exploring the natural laws of the universe, the image depicted does capture how creating and sustaining the future science workforce benefits greatly from the continuum between education and research. The path science students pursue from their educationmore » careers to their research careers often involves training under an experienced and trusted advisor, i.e., a mentor. For many undergraduate science students, a summer research internship at a DOE National Laboratory is one of the many steps they will take in their Education-Research Continuum. Scientists who choose to be mentors share a commitment for both science education and science research. This commitment is especially evident within the research staff found throughout the Department of Energy's National Laboratories. Research-based internship opportunities within science, technology, engineering and mathematics (STEM) exist at most, if not all, of the Laboratories. Such opportunities for students are helping to create the next generation of highly trained professionals devoted to the task of keeping America at the forefront of scientific innovation. 'The Journal of Undergraduate Research' (JUR) provides undergraduate interns the opportunity to publish their scientific innovation and to share their passion for education and research with fellow students and scientists. The theme of this issue of the JUR (Vol. 8, 2008) is 'Science for All'. Almost 20 years have passed since the American Association for the Advancement of Science published its 1989 report, 'Science for All Americans-Project 2061'. The first recommendation for learning science stated: 'The Nature of Science includes the scientific world view, scientific methods of inquiry, and the nature of the scientific enterprise'. All three elements of the 'Nature of Science' are pivotal aspects of a research internship under the mentorship of an experienced and trusted advisor. In addition to internships for undergraduates, an important ingredient in realizing 'Science for All' is collaboration involving educators and scientists as they engage science students and the public at large to promote science literacy and to develop the next generation of STEM professionals. The DOE National Laboratories, individually and collectively, form an ideal nexus for nurturing these complementary collaborations. My 'Science for All' experiences at Lawrence Livermore National Laboratory (LLNL) over the last 30 years have spanned pre-college, college, and postdoctoral activities, including mentoring of undergraduate students. Early in my mentoring career, I became aware that undergraduates in particular needed help in answering the question 'what path (or paths) will lead to a challenging and rewarding STEM career'? For many, a successful path included a research internship that would result in expanded skills and training in addition to those received from their academic education. These internship skills were helpful whether the student's next Education-Research Continuum decision was graduate school or STEM employment. My experience at LLNL mirrors that of my colleagues at other DOE National Laboratories--internships with a dedicated mentor provide undergraduates with a unique set of skills that can underpin their future options and serve to improve the number, quality, and successful outcomes of students who enter STEM careers. 'Science for All' can also be found in the goals of 'The America COMPETES Act', which call for renewed efforts to increase investments in scientific research and development, strengthen education, and encourage entrepreneurship. Mentoring is an important ingredient in reaching these goals because the success of future endeavors will require a diverse workforce of scientists, technicians, engineers, mathematicians, and STEM educators. A small, but not insignificant, metric of how well the nation is doing to create the next STEM generation can be measured by the abstracts and articles published in the 'Journal of Undergraduate Research'. At the 'heart' of the JUR is the professional commitment of the DOE National Laboratory workforce to mentor the next STEM generation and to realize 'Science for All'.« less

Identification of multiple intelligences for high school students in theoretical and applied science courses

NASA Astrophysics Data System (ADS)

Wiseman, D. Kim

Historically educators in the United States have used the Stanford-Binet intelligence test to measure a students' ability in logical/mathematical and linguistic domains. This measurement is being used by a society that has evolved from agrarian and industrial-based economies to what is presently labeled a technological society. As society has changed so have the educational needs of the students who will live in this technological society. This study assessed the multiple intelligences of high school students enrolled in theoretical and applied science (physics and applied physics) courses. Studies have verified that performance and outcomes of students enrolled in these courses are similar in standardized testing but instructional methodology and processes are dissimilar. Analysis of multiple intelligence profiles collected from this study found significant differences in logical/mathematical, bodily/kinesthetic and intrapersonal multiple intelligences of students in theoretical science courses compared to students in applied science courses. Those differences clearly illustrate why it is imperative for educators to expand the definition of intelligence for students entering the new millennium.

Planning for Reform-Based Science: Case Studies of Two Urban Elementary Teachers

NASA Astrophysics Data System (ADS)

Mangiante, Elaine Silva

2018-02-01

The intent of national efforts to frame science education standards is to promote students' development of scientific practices and conceptual understanding for their future role as scientifically literate citizens (NRC 2012). A guiding principle of science education reform is that all students receive equitable opportunities to engage in rigorous science learning. Yet, implementation of science education reform depends on teachers' instructional decisions. In urban schools serving students primarily from poor, diverse communities, teachers typically face obstacles in providing reform-based science due to limited resources and accountability pressures, as well as a culture of teacher-directed pedagogy, and deficit views of students. The purpose of this qualitative research was to study two white, fourth grade teachers from high-poverty urban schools, who were identified as transforming their science teaching and to investigate how their beliefs, knowledge bases, and resources shaped their planning for reform-based science. Using the Shavelson and Stern's decision model for teacher planning to analyze evidence gathered from interviews, documents, planning meetings, and lesson observations, the findings indicated their planning for scientific practices was influenced by the type and extent of professional development each received, each teacher's beliefs about their students and their background, and the mission and learning environment each teacher envisioned for the reform to serve their students. The results provided specific insights into factors that impacted their planning in high-poverty urban schools and indicated considerations for those in similar contexts to promote teachers' planning for equitable science learning opportunities by all students.

Tides, Krill, Penguins, Oh My!: Scientists and Teachers Partner in Project CONVERGE to Bring Collaborative Antarctic Research, Authentic Data, and Scientific Inquiry into the Hands of NJ and NY Students

NASA Astrophysics Data System (ADS)

Hunter-thomson, K. I.; Kohut, J. T.; Florio, K.; McDonnell, J. D.; Ferraro, C.; Clark, H.; Gardner, K.; Oliver, M. J.

2016-02-01

How do you get middle and high school students excited about scientific inquiry? Have them join a collaborative research team in Antarctica! A comprehensive education program brought ocean science, marine ecology, and climate change impact research to more than 950 students in 2014-15 to increase their exposure to and excitement of current research. The program was integrated into a collaborative research project, involving five universities, that worked to characterize the connection between ocean circulation, plankton distribution, penguin foraging behavior, and climate change around Palmer Station, Antarctica. The scientists and education team co-led a weeklong workshop to expose 22 teachers to the research science, build relationships among the teachers and scientists, and refine the program to most effectively communicate the research to their students. In the fall, teachers taught NGSS-aligned, hands-on, data-focused classroom lessons to provide their students the necessary content to understand the project hypotheses using multiple science practices. Through a professional science blog and live video calls from Antarctica, students followed and discussed the science teams work while they were in the field. To apply the science practices the students had learned about, they designed, conducted, and analyzed their own ocean-related, inquiry-based research investigation as the culminating component of the program (results were presented at a Student Research Symposium attended by the science team). Of their own choosing, roughly half of the students used raw data from the CONVERGE research (including krill, CODAR, penguin, and glider data) for their investigations. This presentation will focus on the evaluation results of the education program to identify the aspects that successfully engaged teachers and students with scientific inquiry, science practices, and authentic data as well as the replicability of this integrated scientist-teacher partnership and education program.

Laboratory Activities in Israel

ERIC Educational Resources Information Center

Mamlok-Naaman, Rachel; Barnea, Nitza

2012-01-01

Laboratory activities have long had a distinctive and central role in the science curriculum, and science educators have suggested that many benefits accrue from engaging students in science laboratory activities. Many research studies have been conducted to investigate the educational effectiveness of laboratory work in science education in…

Student Teachers' Understanding and Acceptance of Evolution and the Nature of Science

ERIC Educational Resources Information Center

Coleman, Joy; Stears, Michèle; Dempster, Edith

2015-01-01

The focus of this study was student teachers at a South African university enrolled in a Bachelor of Education (B.Ed.) programme and a Postgraduate Certificate in Education (PGCE), respectively. The purpose of this study was to explore students' understanding and acceptance of evolution and beliefs about the nature of science (NOS), and to…

The Nature of Discourse throughout 5E Lessons in a Large Enrolment College Biology Course

ERIC Educational Resources Information Center

Sickel, Aaron J.; Witzig, Stephen B.; Vanmali, Binaben H.; Abell, Sandra K.

2013-01-01

Large enrolment science courses play a significant role in educating undergraduate students. The discourse in these classes usually involves an instructor lecturing with little or no student participation, despite calls from current science education reform documents to elicit and utilize students' ideas in teaching. In this study, we used the 5E…

Trainee Science Teachers' Ideas about Environmental Problems Caused by Vehicle Emissions

ERIC Educational Resources Information Center

Darcin, E. Selcen

2010-01-01

The purpose of this study was to determine students' knowledge level and misconceptions about cars and environment. The sample group of this study consists of randomly selected students from Science Education Department of Gazi Education Faculty in Turkey. The measure is applied to total of 298 students where 174 of them are female and 124 are…

Teaching Students to Make Better Decisions about the Environment: Lessons from the Decision Sciences

ERIC Educational Resources Information Center

Arvai, Joseph L.; Campbell, Victoria E. A.; Baird, Anne; Rivers, Louie

2004-01-01

One of the fundamental goals of environmental education (EE) is to equip students with the skills to make more thoughtful decisions about environmental issues. Many examples of environmental and science education curricula work to address this goal by providing students with up-to-date information about a myriad of environmental issues from a…

Wait Time and Effective Social Studies Instruction: What Can Research in Science Education Tell Us?

ERIC Educational Resources Information Center

Atwood, Virgina A.; Wilen, William W.

1991-01-01

Defines wait time as the length of time teachers wait for answers from students after asking a question. Maintains that increasing wait time can stimulate reflective thinking and student involvement. Reviews the research literature on wait time studies in science education. Finds that student responses improve and participation expands with…

Promising Practices for Supporting Students with Disabilities through Writing in Science

ERIC Educational Resources Information Center

Collins, Lauren W.; Fulton, Lori

2017-01-01

Students with high-incidence disabilities (SWDs) experience academic challenges in multiple content areas (U.S. Department of Education, 2014). With growing recognition of the importance of science education in preparing students to be well-rounded, global learners in the 21st century, it is crucial that SWDs receive supports for succeeding in a…

Piquing Student Interest with Pharmacology: An Interdisciplinary Program Helps High School Students Learn Biology and Chemistry Principles

ERIC Educational Resources Information Center

Halpin, Myra J.; Hoeffler, Leanne; Schwartz-Bloom, Rochelle D.

2005-01-01

To help students learn science concepts, Pharmacology Education Partnership (PEP)--a science education program that incorporates relevant topics related to drugs and drug abuse into standard biology and chemistry curricula was developed. The interdisciplinary PEP curriculum provides six modules to teach biology and chemistry principles within the…

Earth at Rest: Aesthetic Experience and Students' Grounding in Science Education

ERIC Educational Resources Information Center

Østergaard, Edvin

2017-01-01

Focus of this article is the current situation characterized by students' de-rootedness and possible measures to improve the situation within the frame of education for sustainable development. My main line of argument is that science teachers can practice teaching in such a way that students are brought in deeper contact to the environment. I…

Reading First: Impact on Third Grade Student Performance in Reading, Math, Science Before, During, and after Implementation

ERIC Educational Resources Information Center

Allen, Vikki Renee

2012-01-01

Critical issues are confronting educators regarding increasing student achievement levels in reading, math and science in United States' public schools. Educators and legislators are attempting to make radical changes in instructional methodology and to find viable and sustainable solutions to problems associated with poor student achievement.…

Fundamental Research in Engineering Education. Identifying and Repairing Student Misconceptions in Thermal and Transport Science: Concept Inventories and Schema Training Studies

ERIC Educational Resources Information Center

Miller, Ronald L.; Streveler, Ruth A.; Yang, Dazhi; Roman, Aidsa I. Santiago

2011-01-01

This paper summarizes progress on two related lines of chemical engineering education research: 1) identifying persistent student misconceptions in thermal and transport science (fluid mechanics, heat transfer, and thermodynamics); and, 2) developing a method to help students repair these misconceptions. Progress on developing the Thermal and…

How Learning and Cognitive Science Can Improve Student Outcomes. Middle School Matters Program No. 1

ERIC Educational Resources Information Center

Graesser, Art; Rodriguez, Gina; Brasiel, Sarah J.

2013-01-01

There are research-based principles and practices from the learning and cognitive sciences that can be applied to all content areas in middle grades education to improve student outcomes. Even teachers of courses like Physical Education can consider these strategies for assisting students in remembering rules of sports, different sports…

Lebanese Students' Conceptions of and Attitudes towards Science and Related Careers Based on Their Gender and Religious Affiliations

ERIC Educational Resources Information Center

Khishfe, Rola; BouJaoude, Saouma

2016-01-01

Students' attitudes and conceptions seem to be influenced by social/cultural contexts and interactions with other students from diverse backgrounds. Therefore, educators need to study attitudes, conceptions, and career choices in relation to diversity indicators. Such was one focus of the Science Education for Diversity project, which involved…

From Trace Evidence to Bioinformatics: Putting Bryophytes into Molecular Biology Education

ERIC Educational Resources Information Center

Fuselier, Linda; Bougary, Azhar; Malott, Michelle

2011-01-01

Students benefit most from their science education when they participate fully in the process of science in the context of real-world problems. We describe a student-directed open-inquiry lab experience that has no predetermined outcomes and requires students to engage in all components of scientific inquiry from posing a question through…

Enhanced Induction into a Science Top-up Degree--Easing Transition from Further Education Institutions

ERIC Educational Resources Information Center

Prankel, Susanne; Weaver, Lorraine

2012-01-01

Induction for students entering university at level six is often less in-depth than that for students experiencing higher education (HE) for the first time. A week-long "Enhanced Induction" was developed specifically tailored to the concerns of the staff and students involved in an Animal Science "Top-up" at the University of…

A Window on Science: Exploring the JASON Project and Student Conceptions of Science.

ERIC Educational Resources Information Center

Moss, David M.

2003-01-01

Describes how the JASON project was implemented in a self-contained 4th grade classroom and examines this project within the overall context of student-scientist partnership (SSP) models of science education reform. Examines changes in student conceptions of the nature of science as a result of participating in science. (Contains 24 references.)…

The Gateway Science Workshop Program: Enhancing Student Performance and Retention in the Sciences through Peer-Facilitated Discussion

ERIC Educational Resources Information Center

Drane, Denise; Smith, H. David; Light, Greg; Pinto, Larry; Swarat, Su

2005-01-01

Minority student attrition and underachievement is a long-standing and widespread concern in higher education. It is especially acute in introductory science courses which are prerequisites for students planning to pursue science-related careers. Poor performance in these courses often results in attrition of minorities from the science fields.…

Spanish Students' Conceptions about NOS and STS Issues: A Diagnostic Study

ERIC Educational Resources Information Center

Vázquez-Alonso, Ángel; García-Carmona, Antonio; Manassero-Mas, María Antonia; Bennàssar-Roig, Antoni

2014-01-01

Spanish students' beliefs on themes of Science-Technology-Society (STS) and nature of science (NOS) are assessed. The sample consisted of 1050 science and non-science students who had concluded their pre-university education (18-19 years old). Each participant anonymously answered 30 items drawn from the Questionnaire of Opinions on Science,…

A Randomized Controlled Trial Validating the Impact of the LASER Model of Science Education on Student Achievement and Teacher Instruction

ERIC Educational Resources Information Center

Kaldon, Carolyn R.; Zoblotsky, Todd A.

2014-01-01

Previous research has linked inquiry-based science instruction (i.e., science instruction that engages students in doing science rather than just learning about science) with greater gains in student learning than text-book based methods (Vanosdall, Klentschy, Hedges & Weisbaum, 2007; Banilower, 2007; Ferguson 2009; Bredderman, 1983;…

The Pre-Instructors in Math and Science (PIMAS) Program at the University of Arizona’s Flandrau Science Center

NASA Astrophysics Data System (ADS)

Brissenden, G.; Slater, T. F.; Colodner, D.; Johnson, S.

2003-12-01

The Pre-Instructors in Math and Science (PIMAS) Program at the University of Arizona's Flandrau Science Center offers high school students the opportunity to explore careers in science teaching through on-the-job training in informal science teaching, both at Flandrau and in the community. The goal of the PIMAS program is to encourage these students to consider pursuing science teaching careers as they transition from high school to college. Students become members of the Flandrau Science Center staff, learning how to present several astronomy demonstrations. These demonstrations include: A Journey to Pluto, Robots on Mars, and Constructing the Seasons. Students also learn how to host star parties. They then offer these presentations at Flandrau on Saturdays and public viewing nights. During the Fall semester, students have the opportunity to learn about best practices in informal science education. They participate, as peers, in the U of A's Science Teachers Colloquium Series. They meet with astronomers, planetary scientists, engineers, and amateur astronomers to learn more about the science behind the demonstrations they are learning. In the Spring semester, students take what they've learned "on the road." They plan and execute Space Nights for their communities-at their schools, their siblings' schools, their churches, their scouting troupes, etc. We believe that by letting the students go into their own communities, they have a greater sense of ownership and pride in these events. The PIMAS Program is now entering its third year. We present both our successes and our lessons learned, as well as what the PIMAS students have to say about the program. We greatly appreciate, and acknowledge, the support of the Arizona Teacher Education Coalition, which is funded by the US Department of Education.

Development of Analytical Thinking Ability and Attitudes towards Science Learning of Grade-11 Students through Science Technology Engineering and Mathematics (STEM Education) in the Study of Stoichiometry

ERIC Educational Resources Information Center

Chonkaew, Patcharee; Sukhummek, Boonnak; Faikhamta, Chatree

2016-01-01

The purpose of this study was to investigate the analytical thinking abilities and attitudes towards science learning of grade-11 students through science, technology, engineering, and mathematics (STEM) education integrated with a problem-based learning in the study of stoichiometry. The research tools consisted of a pre- and post-analytical…

Societal Issues and Their Importance for Contemporary Science Education--A Pedagogical Justification and the State-of-the-Art in Israel, Germany, and the USA

ERIC Educational Resources Information Center

Hofstein, Avi; Eilks, Ingo; Bybee, Rodger

2011-01-01

One common theme underlying recent reports on science education is that the content of school science and its related pedagogical approaches are not aligned with the interests and needs of both society and the majority of the students. Most students do not find their science classes interesting and motivating. These claims are especially valid…

Using Educative Assessments to Support Science Teaching for Middle School English-language Learners

NASA Astrophysics Data System (ADS)

Buxton, Cory A.; Allexsaht-Snider, Martha; Suriel, Regina; Kayumova, Shakhnoza; Choi, Youn-jeng; Bouton, Bobette; Baker, Melissa

2013-03-01

Grounded in Hallidayan perspectives on academic language, we report on our development of an educative science assessment as one component of the language-rich inquiry science for English-language learners teacher professional learning project for middle school science teachers. The project emphasizes the role of content-area writing to support teachers in diagnosing their students' emergent understandings of science inquiry practices, science content knowledge, and the academic language of science, with a particular focus on the needs of English-language learners. In our current school policy context, writing for meaningful purposes has received decreased attention as teachers struggle to cover large numbers of discrete content standards. Additionally, high-stakes assessments presented in multiple-choice format have become the definitive measure of student science learning, further de-emphasizing the value of academic writing for developing and expressing understanding. To counter these trends, we examine the implementation of educative assessment materials—writing-rich assessments designed to support teachers' instructional decision making. We report on the qualities of our educative assessment that supported teachers in diagnosing their students' emergent understandings, and how teacher-researcher collaborative scoring sessions and interpretation of assessment results led to changes in teachers' instructional decision making to better support students in expressing their scientific understandings. We conclude with implications of this work for theory, research, and practice.

Science Education in Egypt and Other Arab Countries in Africa and West Asia.

ERIC Educational Resources Information Center

Hassan, Farkhonda

1997-01-01

Examines science education in Egypt and the Arab states, focusing on the status of science and technology at the pre-university level and higher education, the science and technology structural component in the higher education system, student enrollment at the B.S. level, distribution of B.S degrees by sex, science and technology graduates, M.S.…

Expecting success: Factors influencing ninth graders' science self-efficacy

NASA Astrophysics Data System (ADS)

Donahue, Elizabeth

What factors influence ninth grade students' expectations for success in science? Using social cognitive theory and bioecological systems theory as theoretical frameworks, this dissertation employs data from the High School Longitudinal Study of 2009 (HSLS:09) to examine the relative impact of teacher practices and their perceived attitudes on students' science self-efficacy. Further, as they relate to this broader issue, the relative impact of student subjective task value and teacher characteristics is also investigated. It has been well documented that U.S. students are not achieving at satisfactory levels in science. Education policy has focused on improving science teacher quality as one way to address this problem. Teacher effectiveness has been primarily measured by student achievement on standardized tests. However, not enough attention has been given to the social cognitive factors that can lead to increased achievement and persistence in science as well as how teachers may influence these factors. This study interrogates the relationship between student and teacher variables and the social cognitive construct of self-efficacy, which has proven to have a significant impact on student achievement and persistence in science. Findings add to the current literature surrounding ways that educators may increase student performance in science by employing policies and practices that benefit the development of student science self-efficacy.

Guidebook to Excellence 1995: A Directory of Federal Resources for Mathematics and Science Education Improvement for the Pacific Region.

ERIC Educational Resources Information Center

Eisenhower National Clearinghouse for Mathematics and Science Education, Columbus, OH.

This document is a comprehensive directory of Federal offices, programs and facilities for K-12 education in mathematics and science for the Pacific Region. The purpose of this directory is to assist educators, parents, and students in attaining the National Education Goals, particularly Goal 4: "By the year 2000, U.S. students will be first…

Sounding Out Science: Incorporating Audio Technology to Assist Students with Learning Differences in Science Education

NASA Astrophysics Data System (ADS)

Gomes, Clement V.

With the current focus to have all students reach scientific literacy in the U.S, there exists a need to support marginalized students, such as those with Learning Disabilities/Differences (LD), to reach the same educational goals as their mainstream counterparts. This dissertation examines the benefits of using audio assistive technology on the iPad to support LD students to achieve comprehension of science vocabulary and semantics. This dissertation is composed of two papers, both of which include qualitative information supported by quantified data. The first paper, titled Using Technology to Overcome Fundamental Literacy Constraints for Students with Learning Differences to Achieve Scientific Literacy, provides quantified evidence from pretest and posttest analysis that audio technology can be beneficial for seventh grade LD students when learning new and unfamiliar science content. Analysis of observations and student interviews support the findings. The second paper, titled Time, Energy, and Motivation: Utilizing Technology to Ease Science Understanding for Students with Learning Differences, supports the importance of creating technology that is clear, audible, and easy for students to use so they benefit and desire to utilize the learning tool. Multiple correlation of Likert Survey analysis was used to identify four major items and was supported with analysis from observations of and interviews with students, parents, and educators. This study provides useful information to support the rising number of identified LD students and their parents and teachers by presenting the benefits of using audio assistive technology to learn science.

A phenomenological analysis of the essence of the science education experience as perceived by female high school physics and advanced chemistry students

NASA Astrophysics Data System (ADS)

Papadimitriou, Michael

The purpose of this phenomenological study was to describe the essential elements of the current science education experience as constructed by twelve female high school physics and advanced chemistry students. The expressed desired outcome was a description of the phenomenon from a participant point of view. Student recollections and interpretations of experiences were assessed for a twelve-week period. Data sources were student journals, autobiographies, interviews, focus group interviews and researcher observations. In addition, each participant completed the Test of Science Related Attitudes (Fraser, 1981) in order to create attitude profiles for triangulation with other data. While a wide range of aspects of the science education experience emerged, results showed that female students describe and interpret their science education experiences on the basis of actual interest in science, early science experiences, perception of ability, self-confidence, teacher attributes, parental and peer interaction, societal expectations, the nature of science, and gender. Of these factors, specifically, interest and curiosity, societal influence, the nature of science, lack of in-school experiences, the desire to help others, and general parent support were most impacting upon experience and the desire to continue science study. Moreover, the interaction of these factors is relevant. Very simply, early experiences are crucial to interest development. In general, parents can enhance this interest by providing science-related experiences. In the absence of early in-school experiences (i.e., which the participants reported), these out-of-school experiences become crucial. More importantly, quality instruction and parent and peer support are needed to foster science interest and to overcome the powerfully negative influence of society, the discriminatory nature of science, and the lack of experiences.

The Uses of the Term Hypothesis and the Inquiry Emphasis Conflation in Science Teacher Education

NASA Astrophysics Data System (ADS)

Gyllenpalm, Jakob; Wickman, Per-Olof

2011-09-01

This paper examines the use and role of the term 'hypothesis' in science teacher education as described by teacher students. Data were collected through focus group interviews conducted at seven occasions with 32 students from six well-known Swedish universities. The theoretical framework is a sociocultural and pragmatist perspective on language and learning, introducing the notion of pivot terms to operationalise language use as a habit and mediated action. We describe three different customs of using the term 'hypothesis' within four cultural institutions that can be said to constitute science teacher education in Sweden. Students were found to habitually use the term hypothesis as meaning a guess about an outcome. This is contrasted to the function of this term in scientific research as a tentative explanation. We also found differences in how this term was used between the pure science courses given by the science departments of universities and science education courses taken only by teacher students. Findings also included further support for school students hypothesis fear reported in an earlier study. It is discussed how these findings can obstruct learning and teaching about the nature of scientific inquiry. Constructivist theories of learning are suggested as a possible origin of these problems. The findings are also related to curricular reform and development.

Science Engagement and Literacy: A Retrospective Analysis for Indigenous and Non-Indigenous Students in Aotearoa New Zealand and Australia

ERIC Educational Resources Information Center

Woods-McConney, Amanda; Oliver, Mary C.; McConney, Andrew; Maor, Dorit; Schibeci, Renato

2013-01-01

Previous research has underlined the importance of school students' engagement in science (including students' attitudes, interests and self beliefs). Engagement in science is important as a correlate of scientific literacy and attainment, and as an educational outcome in its own right. Students positively engaged with science are more likely to…

Epistemologies and scientific reasoning skills among undergraduate science students

NASA Astrophysics Data System (ADS)

Mollohan, Katherine N.

Non-cognitive factors such as students' attitudes and beliefs toward a subject and their proficiency in scientific reasoning are important aspects of learning within science disciplines. Both factors have been studied in relation to science education in various discplines. This dissertation presents three studies that investigate student epistemologies and scientific reasoning in the domain of biology education. The first study investigated students' epistemic viewpoints in two introductory biology courses, one for science majors and one for non-science majors. This quantitative investigation revealed that the majors exhibited a negative shift in their attitudes and beliefs about biology and learning biology during a semester of introductory instruction. However, the non-science majors did not exhibit a similar shift. If fact, the non-science majors improved in their attitudes and beliefs during a semester of instruction, though not significantly so. The second study expands epistemological research to a population that has often been left out of this work, that is, intermediate-level biology majors. Quantitative and qualitative data was collected to reveal that junior and senior ranked students for the most part were able to characterize their views about biology and learning biology, and were able to associate factors with their epistemic improvement. Finally, the third study expands epistemology research further to determine if scientific reasoning and student attitudes and beliefs about learning science (specifically biology) are related. After a description of how various science and engineering majors compare in their scientific reasoning skills, this study indicated that among intermediate level biology majors there is no relationship between scientific reasoning skills and epistemologies, nor is there a relationship with other educational factors, including the number of courses taken during an undergraduate career, cumulative GPA, and standardized test scores (ACT). Taken together, the results of these studies can inform science education, particularly discipline-based education research in biology.

Broadening Participation in the Life Sciences with Social-Psychological Interventions.

PubMed

Tibbetts, Yoi; Harackiewicz, Judith M; Priniski, Stacy J; Canning, Elizabeth A

Randomized controlled trials (RCTs) have recently documented the positive effects of social-psychological interventions on the performance and retention of underrepresented students in the life sciences. We review two types of social-psychological interventions that address either students' well-being in college science courses or students' engagement in science content. Interventions that have proven effective in RCTs in science courses (namely, utility-value [UV] and values-affirmation [VA] interventions) emphasize different types of student values-students' perceptions of the value of curricular content and students' personal values that shape their educational experiences. Both types of value can be leveraged to promote positive academic outcomes for underrepresented students. For example, recent work shows that brief writing interventions embedded in the curriculum can increase students' perceptions of UV (the perceived importance or usefulness of a task for future goals) and dramatically improve the performance of first-generation (FG) underrepresented minority students in college biology. Other work has emphasized students' personal values in brief essays written early in the semester. This VA intervention has been shown to close achievement gaps for women in physics classes and for FG students in college biology. By reviewing recent research, considering which interventions are most effective for different groups, and examining the causal mechanisms driving these positive effects, we hope to inform life sciences educators about the potential of social-psychological interventions for broadening participation in the life sciences. © 2016 Y. Tibbetts et al. CBE—Life Sciences Education © 2016 The American Society for Cell Biology. This article is distributed by The American Society for Cell Biology under license from the author(s). It is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).

Transforming attitudes and lives: Liberating African-American elementary and middle school students in out-of-school time STEM education

NASA Astrophysics Data System (ADS)

Smith, Charisse F.

Statistically, African-Americans, women, and the disabled are underrepresented in the fields of Science, Technology, Engineering, and Math (STEM). Historically, these underrepresented students, are described as being unrecognized and underdeveloped in the American STEM circuit. Many experience deficient and inadequate educational resources, are not encouraged to pursue STEM education and careers, and are confronted with copious obstructions. In this quantitative study, the researcher collected pretest and posttest survey data from a group of 4th, 5th, and 6th-grade African-American students in Title I funded schools. The reseacher used quantitative analysis to determine any significant differences in the science related attitudes between and within groups who participated in Out of School-Time Science, Technology, Engineering, and Mathematics programs and those who did not. Results revealed no significant differences in the science related attitudes between the groups of the students who participated in the Out of School Time-Science, Technology, Engineering, and Mathematics programs and those who did not. Results also revealed no significant differences in the science related attitudes within the groups of students who participated in the Out of School Time-Science, Technology, Engineering, and Mathematics programs and those who did not.

Urban science education: examining current issues through a historical lens

NASA Astrophysics Data System (ADS)

McLaughlin, Cheryl A.

2014-12-01

This paper reviews and synthesizes urban science education studies published between 2000 and 2013 with a view to identifying current challenges faced by both teachers and students in urban classrooms. Additionally, this paper considers the historical events that have shaped the conditions, bureaucracies, and interactions of urban institutions. When the findings from these urban science education studies were consolidated with the historical overview provided, it was revealed that the basic design and regulatory policies of urban schools have not substantively changed since their establishment in the nineteenth century. Teachers in urban science classrooms continue to face issues of inequality, poverty, and social injustice as they struggle to meet the needs of an increasingly diverse student population. Furthermore, persistent concerns of conflicting Discourses, cultural dissonance, and oppression create formidable barriers to science learning. Despite the many modifications in structure and organization, urban students are still subjugated and marginalized in systems that emphasize control and order over high-quality science education.

Space biology class as part of science education programs for high schools in Japan.

PubMed

Kamada, Motoshi; Takaoki, Muneo

2004-11-01

Declining incentives and scholastic abilities in science class has been concerned in Japan. The Ministry of Education, Culture, Sports, Science and Technology encourages schools to cooperate with research institutions to raise student's interest in natural sciences. The Science Partnership Program (SPP) and the Super Science High-School (SSH) are among such efforts. Our short SPP course consists of an introductory lecture on space biology in general and a brief laboratory practice on plant gravitropism. Space biology class is popular to students, despite of the absence of flight experiments. We suppose that students are delighted when they find that their own knowledge is not a mere theory, but has very practical applications. Space biology is suitable in science class, since it synthesizes mathematics, physics, chemistry and many other subjects that students might think uninteresting.

Disparities in American Graduate Students' Tendency to Borrow: "Race, Family Background, and Major"

ERIC Educational Resources Information Center

Niu, Lian

2016-01-01

This study uses National Postsecondary Student Aid Study of 2012 data to examine disparities in graduate students' borrowing tendency. Results show Black and Hispanic students, students in education, humanities, and social sciences, and students of parents with lower education level are more likely to borrow for graduate education, even after…

Outside the pipeline: reimagining science education for nonscientists.

PubMed

Feinstein, Noah Weeth; Allen, Sue; Jenkins, Edgar

2013-04-19

Educational policy increasingly emphasizes knowledge and skills for the preprofessional "science pipeline" rather than helping students use science in daily life. We synthesize research on public engagement with science to develop a research-based plan for cultivating competent outsiders: nonscientists who can access and make sense of science relevant to their lives. Schools should help students access and interpret the science they need in response to specific practical problems, judge the credibility of scientific claims based on both evidence and institutional cues, and cultivate deep amateur involvement in science.

Science Anxiety and Gender in Students Taking General Education Science Courses

ERIC Educational Resources Information Center

Udo, M. K.; Ramsey, G. P.; Mallow, J. V.

2004-01-01

Earlier studies [Mallow, J. V. (1994). Gender-related science anxiety: A first binational study. "Journal of Science Education and Technology" 3: 227-238; Udo, M. K., Ramsey, G. P., Reynolds-Alpert, S., and Mallow, J. V. (2001). Does physics teaching affect gender-based science anxiety? "Journal of Science Education and Technology" 10: 237-247] of…

Educational Experiences in Oceanography through Hands-On Involvement with Surface Drifters: an Introduction to Ocean Currents, Engineering, Data Collection, and Computer Science

NASA Astrophysics Data System (ADS)

Anderson, T.

2015-12-01

The Northeast Fisheries Science Center's (NEFSC) Student Drifters Program is providing education opportunities for students of all ages. Using GPS-tracked ocean drifters, various educational institutions can provide students with hands-on experience in physical oceanography, engineering, and computer science. In building drifters many high school and undergraduate students may focus on drifter construction, sometimes designing their own drifter or attempting to improve current NEFSC models. While learning basic oceanography younger students can build drifters with the help of an educator and directions available on the studentdrifters.org website. Once drifters are deployed, often by a local mariner or oceanographic partner, drifter tracks can be visualised on maps provided at http://nefsc.noaa.gov/drifter. With the lesson plans available for those interested in computer science, students may download, process, and plot the drifter position data with basic Python code provided. Drifter tracks help students to visualize ocean currents, and also allow them to understand real particle tracking applications such as in search and rescue, oil spill dispersion, larval transport, and the movement of injured sea animals. Additionally, ocean circulation modelers can use student drifter paths to validate their models. The Student Drifters Program has worked with over 100 schools, several of them having deployed drifters on the West Coast. Funding for the program often comes from individual schools and small grants but in the future will preferably come from larger government grants. NSF, Sea-Grant, NOAA, and EPA are all possible sources of funding, especially with the support of multiple schools and large marine education associations. The Student Drifters Program is a unique resource for educators, students, and scientists alike.

Accreditation standards for undergraduate forensic science programs

NASA Astrophysics Data System (ADS)

Miller, Marilyn Tebbs

Undergraduate forensic science programs are experiencing unprecedented growth in numbers of programs offered and, as a result, student enrollments are increasing. Currently, however, these programs are not subject to professional specialized accreditation. This study sought to identify desirable student outcome measures for undergraduate forensic science programs that should be incorporated into such an accreditation process. To determine desirable student outcomes, three types of data were collected and analyzed. All the existing undergraduate forensic science programs in the United States were examined with regard to the input measures of degree requirements and curriculum content, and for the output measures of mission statements and student competencies. Accreditation procedures and guidelines for three other science-based disciplines, computer science, dietetics, and nursing, were examined to provide guidance on accreditation processes for forensic science education programs. Expert opinion on outcomes for program graduates was solicited from the major stakeholders of undergraduate forensic science programs-forensic science educators, crime laboratory directors, and recent graduates. Opinions were gathered by using a structured Internet-based survey; the total response rate was 48%. Examination of the existing undergraduate forensic science programs revealed that these programs do not use outcome measures. Of the accreditation processes for other science-based programs, nursing education provided the best model for forensic science education, due primarily to the balance between the generality and the specificity of the outcome measures. From the analysis of the questionnaire data, preliminary student outcomes, both general and discipline-specific, suitable for use in the accreditation of undergraduate forensic science programs were determined. The preliminary results were reviewed by a panel of experts and, based on their recommendations, the outcomes identified were revised and refined. The results of this study were used to identify student outcomes and to suggest accreditation standards and an accreditation process for undergraduate forensic science programs based on those outcomes.

Designing for Culturally Responsive Science Education through Professional Development

ERIC Educational Resources Information Center

Brown, Julie C.; Crippen, Kent J.

2016-01-01

Educational stakeholders across the globe are demanding science education reform that attends simultaneously to culturally diverse students' needs and promotes academic excellence. Although professional development programs can foster science teachers' growth as culturally responsive educators, effective supports to this end are not well…

A motivational account of the undergraduate experience in science: brief measures of students' self-system appraisals, engagement in coursework, and identity as a scientist

NASA Astrophysics Data System (ADS)

Skinner, Ellen; Saxton, Emily; Currie, Cailin; Shusterman, Gwen

2017-11-01

As part of long-standing efforts to promote undergraduates' success in science, researchers have investigated the instructional strategies and motivational factors that promote student learning and persistence in science coursework and majors. This study aimed to create a set of brief measures that educators and researchers can use as tools to examine the undergraduate motivational experience in science classes. To identify key motivational processes, we drew on self-determination theory (SDT), which holds that students have fundamental needs - to feel competent, related, and autonomous - that fuel their intrinsic motivation. When educational experiences meet these needs, students engage more energetically and learn more, cumulatively contributing to a positive identity as a scientist. Based on information provided by 1013 students from 8 classes in biology, chemistry, and physics, we constructed conceptually focused and psychometrically sound survey measures of three sets of motivational factors: (1) students' appraisals of their own competence, autonomy, and relatedness; (2) the quality of students' behavioural and emotional engagement in academic work; and (3) students' emerging identities as scientists, including their science identity, purpose in science, and science career plans. Using an iterative confirmatory process, we tested short item sets for unidimensionality and internal consistency, and then cross-validated them. Tests of measurement invariance showed that scales were generally comparable across disciplines. Most importantly, scales and final course grades showed correlations consistent with predictions from SDT. These measures may provide a window on the student motivational experience for educators, researchers, and interventionists who aim to improve the quality of undergraduate science teaching and learning.

Senior science teachers' experience of teaching in a changing multicultural classroom: A case study

NASA Astrophysics Data System (ADS)

Ryan, Mark

Demographic changes within the US are bringing significant changes in the cultural make-up of the classrooms in our schools. Results from national and state assessments indicate a growing achievement gap between the science scores of white students and students from minority communities. This gap indicates a disconnect somewhere in the science classrooms. This study examines the teacher's perspective of the changing learning environment. The study focuses on senior teachers with traditional Midwestern backgrounds and little multicultural experience assuming these teachers had little or no education in multicultural education. Senior teachers are also more likely to have completed their science education within a traditional Universalist perspective of science and likewise have little or no education in multicultural science. The research method was comparative case studies of a purposeful sample of nine science teachers within a community experiencing significant demographic change, seven core senior teachers and two frame of reference teachers. The interviews examined the teachers' awareness of their own cultural beliefs and the impact of those beliefs on classroom practices, the teachers' understanding of cultural influences on the students' academic performance, and the relationships between the teachers' understanding of the cultural aspects of the nature of science and their classroom practices. Analysis of the interview data revealed that the teachers maintain a strong, traditional Midwestern worldview for classroom expectations and they are generally unaware of the impact of those standards on the classroom environment. The teachers were supportive of minority students within their classroom, changing several practices to accommodate student needs, but they were unaware of the broader cultural influences on student learning. The teachers had a poor understanding of the nature of science and none of them recognized a cultural element of NOS. They maintained a Universalist perspective of science with a strong commitment to the philosophy of scientism which left no room for a multicultural view of science. These results have implications for the broad science community with respect to the philosophy and nature of science. There are also implications in pre- and in-service teacher education and professional development aimed at raising cultural awareness of science teachers and providing a broader understanding of NOS. The problems raised by this research appear to be systemic requiring a commitment beyond the level of the individual teacher to implement a multicultural education that matches the composition of our classrooms.

Bridging the Gap between Earth Science and Students: An Integrated Approach using NASA Earth Science Climate Data

NASA Technical Reports Server (NTRS)

Alston, Erica J.; Chambers, Lin H.; Phelps, Carrie S.; Oots, Penny C.; Moore, Susan W.; Diones, Dennis D.

2007-01-01

Under the auspices of the Department of Education's No Child Left Behind (NCLB) Act, beginning in 2007 students will be tested in the science area. There are many techniques that educators can employ to teach students science. The use of authentic materials or in this case authentic data can be an engaging alternative to more traditional methods. An Earth science classroom is a great place for the integration of authentic data and science concepts. The National Aeronautics and Space Administration (NASA) has a wealth of high quality Earth science data available to the general public. For instance, the Atmospheric Science Data Center (ASDC) at NASA s Langley Research Center houses over 800 Earth science data sets related to Earth's radiation budget, clouds, aerosols and tropospheric chemistry. These data sets were produced to increase academic understanding of the natural and anthropogenic factors that influence global climate; however, a major hurdle in using authentic data is the size of the data and data documentation. To facilitate the use of these data sets for educational purposes, the Mentoring and inquirY using NASA Data on Atmospheric and Earth science for Teachers and Amateurs (MY NASA DATA) project has been established to systematically support educational activities at all levels of formal and informal education. The MY NASA DATA project accomplishes this by reducing these large data holdings to microsets that are easily accessible and explored by K-12 educators and students though the project's Web page. MY NASA DATA seeks to ease the difficulty in understanding the jargon-heavy language of Earth science. This manuscript will show how MY NASA DATA provides resources for NCLB implementation in the science area through an overview of the Web site, the different microsets available, the lesson plans and computer tools, and an overview of educational support mechanisms.

The effects of co-teaching on student test performance and attitudes towards science in high school biology

NASA Astrophysics Data System (ADS)

Cole, Virginia Scott

Reform efforts in response to the inclusion of students with disabilities into general education classrooms have become necessary to shift students' placements into the science classroom. An investigation into the effects of co-teaching in high school biology classrooms was conducted to explore the impact of two models of co-teaching on biology students' achievement and their attitudes towards science. Quantitative data were collected using a diagnostic exam, student chapter test scores, and the Scientific Attitude Inventory II (SAI II) (Moore & Foy, 1997). Additionally, qualitative data were collected from student and teacher interviews, as well as reflections recorded by the general education participating teacher. The study occurred at a predominantly African-American high school in an Alabama city school with approximately 700 students. The population for the study was composed of 62 high school biology students, with 18 of those students placed inclusively in the biology classroom as a result of No Child Left Behind legislation. The participating teachers consisted of one general education biology teacher and one highly qualified, science special education teacher. Twelve students, along with the special education participating teacher, were interviewed and provided qualitative data after completion of the study. The general education teacher provided teacher reflection responses to contribute qualitatively on the impact of co-teaching in high school biology. Quantitative data analysis was performed using descriptive statistics, ANOVA, and paired samples t tests analyses. ANOVA results revealed that there were no changes in student test scores of achievement due to the models of instruction implemented. The implementation of no co-teaching, station teaching, and the one-teaching, one-drifting co-teaching models of instruction did not result in significant changes in students' achievement. Furthermore, paired samples t tests revealed no change in students' attitudes towards science after the study had been completed. Qualitatively, conclusions from the study revealed that implementing the different models of co-teaching may help students improve their daily performance on assignments and assessments other than chapter tests. In addition, students reported positive attitudes towards teacher performance factors and their impact on learning through co-teaching instruction.

Improving Science Achievement through Changes in Education Policy

ERIC Educational Resources Information Center

Owens, Tara M.

2009-01-01

Concerns over science education in the United States continue to grow due to the increasing global demands and competitiveness for careers in science and technology. This author contends that educators in the United States must look for ways to increase science proficiency and overall science literacy. Research about how students learn science…

Urban School Leadership for Elementary Science Education: Meeting the Needs of English Language Learners

ERIC Educational Resources Information Center

Alarcon, Maricela H.

2012-01-01

Science education reform and state testing accountability call upon principals to become instructional leaders in science. Specifically, elementary school principals must take an active role in science instruction to effectively improve science education for all students including English Language Learners. As such, the research questioned posed…

Literacy events during science instruction in a fifth-grade classroom: Listening to teacher and student voices

NASA Astrophysics Data System (ADS)

Deal, Debby

Concern with science literacy and how to achieve it has a long history in our education system. The goals and definitions established by the National Science Education Standards (1996) suggest that if we are to successfully prepare students for the information age, science education must blend the natural and social sciences. However, research indicates that connections between hands-on science and literacy, as a tool for processing information, do not regularly occur during school science instruction. This case study explored the use of literacy by a second year teacher in a fifth grade class during consecutive science units on chemistry and liquids. The research questions focused on how and why the teacher and students used literacy during science and how and why the teacher and selected focus students believed literacy influenced their learning in science. Data was collected through classroom observations and multiple interviews with the teacher and selected focus students. Interview data was analyzed and coded using an iterative process. Field notes and student artifacts were used to triangulate the data. The study found that the teacher and students used reading and writing to record and acquire content knowledge, learn to be organized, and to facilitate assessment. Although the teacher had learned content literacy strategies in her pre-service program, she did not implement them in the classroom and her practice seemed to reflect her limited science content knowledge and understanding of the nature of science. The focus students believed that recording and studying notes, reading books, drawing, and reading study guides helped them learn science. The findings suggest the following implications: (1) More data is needed on the relationship between teaching approach, science content knowledge, and beliefs about science. (2) Elementary student voices make a valuable contribution to our understanding of science learning. (3) Pre-service candidates should have multiple opportunities to explicitly reflect on their beliefs about literacy, the nature of science, and learning in general. (4) Science methods classes should balance content, beliefs and attitudes related to science, and content literacy strategies.

Incorporating a Soil Science Artifact into a University ePortfolio Assessment Tool

ERIC Educational Resources Information Center

Mikhailova, Elena; Werts, Joshua; Post, Christopher; Ring, Gail

2014-01-01

The ePortfolio is a useful educational tool that is utilized in many educational institutions to showcase student accomplishments and provide students with an opportunity to reflect on their educational progress. The objective of this study was to develop and test an artifact from an introductory soil science course to be included in the…

Postsecondary STEM Education for Students with Disabilities: Lessons Learned from a Decade of NSF Funding

ERIC Educational Resources Information Center

Thurston, Linda P.; Shuman, Cindy; Middendorf, B. Jan; Johnson, Cassandra

2017-01-01

The Research in Disabilities Education Synthesis Project (RDE-SP), a four-year mixed methods research project, assessed a decade of funded projects (2001-2011) under the National Science Foundation's Research in Disabilities Education program which is aimed at increasing participation and retention of students with disabilities (SWD) in Science,…

What Specific Science Abilities and Skills Are Romanian Students Developing during Primary Education? A Comparison with the Abilities Tested by the TIMSS 2011 Inquiry

ERIC Educational Resources Information Center

Ciascai, Liliana; Dulama, Maria-Eliza

2013-01-01

The results of Romanian students at international comparative TIMSS and PISA tests have constantly proven to be unsatisfactory. The present paper aims at analyzing the school syllabi "Mathematics and Environment exploration", "Environmental Education" and "Natural Sciences" studied during primary education in Romania…

Psychological Science and Religious Education in a Devout University: The Case of Pain Overlap Theory and the Talmud

ERIC Educational Resources Information Center

Schnall, Eliezer

2014-01-01

Educators employed in devoutly religious institutions often teach students who view even their secular higher education through a uniquely religious lens. Based on his own experiences teaching psychological science at a Jewish university, the author suggests enhancing student interest and enthusiasm by wedding secular curricula with religious…

Education:=Coding+Aesthetics; Aesthetic Understanding, Computer Science Education, and Computational Thinking

ERIC Educational Resources Information Center

Good, Jonathon; Keenan, Sarah; Mishra, Punya

2016-01-01

The popular press is rife with examples of how students in the United States and around the globe are learning to program, make, and tinker. The Hour of Code, maker-education, and similar efforts are advocating that more students be exposed to principles found within computer science. We propose an expansion beyond simply teaching computational…

How Close Student Teachers' Educational Philosophies and Their Scientific Thinking Processes in Science Education

ERIC Educational Resources Information Center

Yurumezoglu, Kemal; Oguz, Ayse

2007-01-01

For being guidance, science teachers should be framed by strong content knowledge to construct scientific thinking process as a scaffold. The aim of this research was to look at student teachers' scientific thinking processes. Then, the results compared with their educational philosophy. During the study, two different instruments were used. For…

A Model for the Development of Web-Based, Student-Centered Science Education Resources.

ERIC Educational Resources Information Center

Murfin, Brian; Go, Vanessa

The purpose of this study was to evaluate The Student Genome Project, an experiment in web-based genetics education. Over a two-year period, a team from New York University worked with a biology teacher and 33 high school students (N=33), and a middle school science teacher and a class of students (N=21) to develop a World Wide Web site intended…

Romantic Understanding and Science Education

ERIC Educational Resources Information Center

Hadzigeorgiou, Yannis

2004-01-01

This essay outlines the potential role for Kieran Egan's (1990) notion of "romantic understanding" in science education. A summary of conventional approaches to science education is followed by a detailed analysis of the implications that romantic understanding may have for the science curriculum, teaching and student learning. In particular the…

Exploring Ivorian perspectives on the effectiveness of the current Ivorian science curriculum in addressing issues related to HIV/AIDS

NASA Astrophysics Data System (ADS)

Ado, Gustave Firmin

School-based HIV/AIDS science education has the potential to impact students when integrated into the science curriculum. However, this mixed method study shows that school-based HIV/AIDS science education is often not infused into career subjects such as science education but integrated into civics education and taught by teachers who lack the skills, knowledge, and the training in the delivery of effective school HIV/AIDS education. Since science is where biological events take place, it is suggested that HIV/AIDS science merits being taught in the science education classroom. This study took place in nine public middle schools within two school districts in Abidjan, Ivory Coast, one major urban city in the southern region. The study utilized triangulation of multiple data sources---both qualitative and quantitative. To substantiate the claims made in this study, a range of qualitative methods such as field notes and individual interviews with 39 teachers, 63 sixth grade students, 8 school administrators, and 20 community elders were used. For the quantitative portion 140 teachers and 3510 sixth grade students were surveyed. The findings from the study prioritize science education that includes HIV/AIDS science education for all, with emphasis on HIV/AIDS prevention in Ivory Coast. The factors that influence the implementation of HIV/AIDS curricula within the Ivorian sixth grade classrooms are discussed. Interview and survey data from students, teachers, school administrators, and community elders indicate that in the Ivorian school setting, "gerontocratic" cultural influences, religious beliefs, personal cultural beliefs, and time spent toward the discourse on HIV/AIDS have led to HIV/AIDS education that is often insufficient to change either misconceptions about HIV/AIDS or risky practices. It was also found that approaches to teaching HIV/AIDS does not connect with youth cultures. By reframing and integrating current HIV/AIDS curricula into the science classroom, providing teachers with adequate HIV/AIDS teaching resources that are more responsive to and inclusive of youth cultural beliefs, and by aligning teaching practices to Ivorian youth cultural and academics interests, there is a chance that HIV/AIDS education could lead to safer sexual behaviors amongst Ivorian youth.

Improving undergraduate biology education in a large research university.

PubMed Central

Bender, C; Ward, S; Wells, M A

1994-01-01

The campus-wide Undergraduate Biology Research Program (UBRP) at the University of Arizona improves undergraduate science education by expanding student opportunities for independent research in faculty laboratories. Within the supportive community of a research laboratory, underclassmen, nonscience majors, and those aspiring to scientific careers all learn to appreciate the process of science. The Program impacts more than the students, promoting departmental cooperation, interdisciplinary collaborations, and improvements in undergraduate science education throughout a Research I University. PMID:8018999

Scientific Literacy and Student Attitudes: Perspectives from PISA 2006 science

NASA Astrophysics Data System (ADS)

Bybee, Rodger; McCrae, Barry

2011-01-01

International assessments provide important knowledge about science education and help inform decisions about policies, programmes, and practices in participating countries. In 2006, science was the primary domain for the Programme for International Student Assessment (PISA), supported by the Organisation for Economic Cooperation and Development (OECD) and conducted by the Australian Council for Educational Research (ACER). Compared to the school curriculum orientation of Trends in International Math and Science Study (TIMSS), PISA provides a perspective that emphasises the application of knowledge to science and technology-related life situations. The orientation of PISA includes both knowledge and attitudes as these contribute to students' competencies that are central to scientific literacy. In addition to students' knowledge and competencies, the 2006 PISA survey gathered data on students' interest in science, support for scientific enquiry, and responsibility towards resources and environments. The survey used both a non-contextualised student questionnaire and contextualised questions. The latter is an innovative approach which embedded attitudinal questions at the conclusion of about two-thirds of the test units. The results presented in this article make connections between students' attitudes and interests in science and scientific literacy.

Improvement in Student Science Proficiency Through InSciEd Out

PubMed Central

Sonju, James D.; Leicester, Jean E.; Hoody, Maggie; LaBounty, Thomas J.; Frimannsdottir, Katrin R.; Ekker, Stephen C.

2012-01-01

Abstract Integrated Science Education Outreach (InSciEd Out) is a collaboration formed between Mayo Clinic, Winona State University, and Rochester Public Schools (MN) with the shared vision of achieving excellence in science education. InSciEd Out employs an equitable partnership model between scientists, teachers, education researchers, and the community. Teams of teachers from all disciplines within a single school experience cutting-edge science using the zebrafish model system, as well as current pedagogical methods, during a summer internship at the Mayo Clinic. Within the internship, the teachers produce new curriculum that directly addresses opportunities for science education improvement at their own school. Zebrafish are introduced within the new curriculum to support a living model of the practice of science. Following partnership with the InSciEd Out program and 2 years of implementation in the classroom, teacher-interns from a K–8 public school reported access to local scientific technology and expertise they had not previously recognized. Teachers also reported improved integration of other disciplines into the scientific curriculum and a flow of concepts vertically from K through 8. Students more than doubled selection of an Honors science track in high school to nearly 90%. 98% of students who took the Minnesota Comprehensive Assessments in their 5th and 8th grade year (a span that includes 2 years of InSciEd Out) showed medium or high growth in science proficiency. These metrics indicate that cooperation between educators and scientists can result in positive change in student science proficiency and demonstrate that a higher expectation in science education can be achieved in US public schools. PMID:23244687