Primary School Teachers' Understanding of Science Process Skills in Relation to Their Teaching Qualifications and Teaching Experience

NASA Astrophysics Data System (ADS)

Shahali, Edy H. M.; Halim, Lilia; Treagust, David F.; Won, Mihye; Chandrasegaran, A. L.

2017-04-01

This study investigated the understanding of science process skills (SPS) of 329 science teachers from 52 primary schools selected by random sampling. The understanding of SPS was measured in terms of conceptual and operational aspects of SPS using an instrument called the Science Process Skills Questionnaire (SPSQ) with a Cronbach's alpha reliability of 0.88. The findings showed that the teachers' conceptual understanding of SPS was much weaker than their practical application of SPS. The teachers' understanding of SPS differed by their teaching qualifications but not so much by their teaching experience. Emphasis needs to be given to both conceptual and operational understanding of SPS during pre-service and in-service teacher education to enable science teachers to use the skills and implement inquiry-based lessons in schools.

The Intersection of Information and Science Literacy

ERIC Educational Resources Information Center

Klucevsek, Kristin

2017-01-01

To achieve higher science literacy, both students and the public require discipline-specific information literacy in the sciences. Scientific information literacy is a core component of the scientific process. In addition to teaching how to find and evaluate resources, scientific information literacy should include teaching the process of…

Teaching about Teaching Science: Aims, Strategies, and Backgrounds of Science Teacher Educators

ERIC Educational Resources Information Center

Berry, Amanda; Van Driel, Jan H.

2013-01-01

Despite pressing concerns about the need to prepare high-quality teachers and the central role of teacher educators (TEs) in this process, little is known about how TEs teach about teaching specific subject matter, and how they develop their expertise. This empirical study focuses on the specific expertise that science TEs bring into teacher…

Fieldwork, Co-Teaching and Co-Generative Dialogue in Lower Secondary School Environmental Science

ERIC Educational Resources Information Center

Rahmawati, Yuli; Koul, Rekha

2016-01-01

This article reports one of the case studies in a 3-year longitudinal study in environmental science education. This case explores the process of teaching about ecosystems through co-teaching and co-generative dialogue in a Year-9 science classroom in Western Australia. Combining with co-teaching and co-generative dialogue aimed at transforming…

The Use of the "Indoor-Outdoor-Indoor" Approach to Teaching Science Conservation with Concentration on Methods of Inquiry and Emphasis on Processes of Science, Grades K-3.

ERIC Educational Resources Information Center

Busch, Phyllis S.

Contained are instructional materials developed by the Science Project Related to Upgrading Conservation Education. The lesson plans given are intended to demonstrate the "indoor-outdoor-indoor" approach to teaching science conservation, with concentration on methods of inquiry and emphasis on processes of science. Four subject areas are…

The chromosomal analysis of teaching: the search for promoter genes.

PubMed

Skeff, Kelley M

2007-01-01

The process of teaching is ubiquitous in medicine, both in the practice of medicine and the promotion of medical science. Yet, until the last 50 years, the process of medical teaching had been neglected. To improve this process, the research group at the Stanford Faculty Development Center for Medical Teachers developed an educational framework to assist teachers to analyze and improve the teaching process. Utilizing empirical data drawn from videotapes of actual clinical teaching and educational literature, we developed a seven-category systematic scheme for the analysis of medical teaching, identifying key areas and behaviors that could enable teachers to enhance their effectiveness. The organizational system of this scheme is similar to that used in natural sciences, such as genetics. Whereas geneticists originally identified chromosomes and ultimately individual and related genes, this classification system identifies major categories and specific teaching behaviors that can enhance teaching effectiveness. Over the past two decades, this organizational framework has provided the basis for a variety of faculty development programs for improving teaching effectiveness. Results of those programs have revealed several positive findings, including the usefulness of the methods for a wide variety of medical teachers in a variety of settings. This research indicates that the development of a framework for analysis has been, as in the natural sciences, an important way to improve the science of the art of teaching.

Challenges of Teaching Computer Science in Transition Countries: Albanian University Case

ERIC Educational Resources Information Center

Sotirofski, Kseanela; Kukeli, Agim; Kalemi, Edlira

2010-01-01

The main objective of our study is to determine the challenges faced during the process of teaching Computer Science in a university of a country in transition and make suggestions to improve this teaching process by perfecting the necessary conditions. Our survey builds on the thesis that we live in an information age; information technology is…

Science for English Language Learners: K-12 Classroom Strategies

ERIC Educational Resources Information Center

Fathman, Ann K.; Crowther, David T.

2005-01-01

It's a simple fact: Doing the best job possible with linguistically and culturally diverse students, a strong foundation in how best to teach both science and language is needed. This comprehensive guide will expand expertise in teaching science content and processes, in language development and literacy, and in inquiry-based teaching. Plus it…

Interesting Science and Mathematics Graduate Students in Secondary Teaching

ERIC Educational Resources Information Center

Latterell, Carmen M.

2009-01-01

State and national initiatives attempt to increase the quantity and quality of secondary mathematics and science teachers. Research suggests that if one could appeal to something inside of people or about the process of teaching and learning itself, then one might draw current mathematics and science graduate students into secondary teaching. This…

How Constructivist-Based Teaching Influences Students Learning Science

ERIC Educational Resources Information Center

Seimears, C. Matt; Graves, Emily; Schroyer, M. Gail; Staver, John

2012-01-01

The purpose of this article is to provide details about the beneficial processes the constructivist pedagogy has in the area of teaching science. No Child Left Behind could possibly cause detrimental effects to the science classroom and the constructivist teacher, so this essay tells how constructivist-based teaching influences students and their…

Investigating Factors Affecting Science Teachers' Performance and Satisfaction toward Their Teaching Process at Najran University for Girls' Science Colleges

ERIC Educational Resources Information Center

Alshehry, Amel Thafer

2014-01-01

In Saudi educational system, many factors have led to a various need for teaching qualifications in higher educational institutions. One main aim of this study was to determine the perception of college teachers on how to assess the effectiveness of the teaching process and what most students consider when evaluating their teachers. Further, it…

Understanding understanding in secondary school science: An interpretive study

NASA Astrophysics Data System (ADS)

O'Neill, Maureen Gail

This study investigated the teaching of secondary school science with an emphasis on promoting student understanding. In particular, I focused on two research questions: What are the possible meanings of teaching for understanding? And, how might one teach secondary school science for understanding? After semi-structured interviews were conducted with 13 secondary school science teachers, grounded theory methodology was used to interpret the data. As a result of the selective coding process, I was able to identify 14 connected components of teaching for understanding (TfU). The process of TfU involves: puzzle-solving, a specific pedagogy and a conscious decision. The teacher must be a reflective practitioner who has some knowledge of the facets of understanding. The teacher comes to a critical incident or crisis in his or her pedagogy and adopts a mindset which highlights TfU as a personal problematic. Teachers operate with student-centred rather than teacher-centred metaphors. TfU requires a firm belief in and passion for the process, a positive attitude and excellent pedagogical content knowledge. It hinges on a performance view of understanding and demands risk-taking in the science classroom. Abstracting these ideas to a theory led me to the notion of Purposive Teaching . In their purposive-driven role as pedagogues, these teachers have placed TfU at the core of their daily practice. Constraints and challenges facing TfU as well as implications of the findings are discussed. Keywords. science teaching, teaching for understanding, purposive teaching, constructivism, understanding, pedagogy, pedagogical content knowledge, memorization, meaningful learning, reflective practice.

Problematizing the Practicum to Integrate Practical Knowledge

ERIC Educational Resources Information Center

Melville, Wayne; Campbell, Todd; Fazio, Xavier; Stefanile, Antonio; Tkaczyk, Nicholas

2014-01-01

This article examines the influence of a practicum teaching experience on two pre-service science teachers. The research is focused on examining a practicum in a secondary science department that actively promotes the teaching and learning of science as inquiry. We investigated the process through which the pre-service science teachers integrated…

New Pathways for Teaching Chemistry: Reflective Judgment in Science.

ERIC Educational Resources Information Center

Finster, David C.

1992-01-01

The reflective judgment model offers a rich context for analysis of science and science teaching. It provides deeper understanding of the scientific process and its critical thinking and reveals fundamental connections between science and the other liberal arts. Classroom techniques from a college chemistry course illustrate the utility of the…

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.

K-5 mentor teachers' journeys toward reform-oriented science within a professional development school context

NASA Astrophysics Data System (ADS)

Manno, Jacqueline L.

Reform-oriented science teaching with a specific focus on evidence and explanation provides a student-centered learning environment which encourages children to question, seek answers to those questions, experience phenomena, share ideas, and develop explanations of science concepts based on evidence. One of the ways schools have risen to meet the challenge of ever-increasing demands for success in science and all other curricular areas has been in the development of professional development schools (PDSs). Dedicated to the simultaneous renewal of schools and teacher education programs, the structure of a PDS plays a significant role in the change process. The purpose of this research study was to investigate the nature of change in mentor teachers' beliefs and pedagogical practices toward science teaching in the elementary school as conveyed through their own "stories of practice". The major research questions that guided the study were: (1) How do mentor teachers describe their science teaching practices and how have they changed as a result of participation in PDS? (a) In what ways do PDS mentor teachers' descriptions of practice reflect contemporary reform ideas and practices in science education? (b) To what extent do their stories emphasize technical aspects of teaching versus epistemological changes in their thinking and knowledge? (c) How is student learning in science reflected in teachers' stories of practice? (2) What is the relationship between the levels and types of involvement in PDS to change in thinking about and practices of teaching science? (3) What is the depth of commitment that mentors convey about changes in science teaching practices? Using case study design, the research explored the ways experienced teachers, working within the context of a PDS community, described changes in the ways they think about and teach science. The connection to the issue of change in teaching practices grew out of interest in understanding the relationship between mentor teachers' engagement in PDS activities and their thinking about classroom practice. The main focus of this research study was on change in science teaching within the context of a professional development school. PDS literature and current literature on the learning and teaching of science in grades K-8 provided a theoretical orientation to guide the research. Additionally, literature on the process of change in schools helped to narrow the focus of the study while using a lens of situated learning provided additional insight. Analysis of the interview data generated seven assertions that captured the nature of the change process of mentor teachers. Science-specific professional development as well as strong support and encouragement within an active community of learners played significant roles in the transformation of mentor teachers from traditional or activity-based science teachers into educators who use reform-oriented methods and a lens of evidence and explanation to guide their science teaching. Mentor teachers acknowledged an increase in student interest and excitement toward science as a result of these changes in science teaching practices. In addition, data revealed that mentor teachers remained committed to their changed practice after several years. By examining the change process of mentor teachers in a PDS environment, findings from this study are discussed based on implications regarding the factors that contribute to and affect change as reform-oriented practices are implemented in science, a curricular area that is often neglected by elementary teachers.

Thinking and Content Learning of Mathematics and Science as Cognitional Development in Content and Language Integrated Learning (CLIL): Teaching Through a Foreign Language in Finland

ERIC Educational Resources Information Center

Jappinen, Aini-Kristiina

2005-01-01

This paper presents a study on thinking and learning processes of mathematics and science in teaching through a foreign language, in Finland. The entity of thinking and content learning processes is, in this study, considered as cognitional development. Teaching through a foreign language is here called Content and Language Integrated Learning or…

From Black and White to Shades of Grey: A Longitudinal Study of Teachers' Perspectives on Teaching Sociocultural and Subjective Aspects of Science

ERIC Educational Resources Information Center

Leden, Lotta; Hansson, Lena; Redfors, Andreas

2017-01-01

Traditional school science has been described as focused on indisputable facts where scientific processes and factors affecting these processes become obscured or left undiscussed. In this article, we report on teachers' perspectives on the teaching of sociocultural and subjective aspects of the nature of science (NOS) as a way to accomplish a…

Learning of Core Disciplinary Ideas: Efficacy Comparison of Two Contrasting Modes of Science Instruction

ERIC Educational Resources Information Center

Schuster, David; Cobern, William W.; Adams, Betty A. J.; Undreiu, Adriana; Pleasants, Brandy

2018-01-01

Science curricula and teaching methods vary greatly, depending in part on which facets of science are emphasized, e.g., core disciplinary ideas or science practices and process skills, and perspectives differ considerably on desirable pedagogies. Given the multi-faceted nature of science and the variety of teaching methods found in practice, it is…

Saudi Elementary School Science Teachers' Beliefs: Teaching Science in the New Millennium

ERIC Educational Resources Information Center

Alghamdi, Amani K. Hamdan; Al-Salouli, Misfer Saud

2013-01-01

This study explored Saudi elementary school science teachers' beliefs about the process of teaching and learning science. This involved the exploration of their views about the new Saudi science curriculum, which emphasizes critical thinking and problem solving. Comprehensive interviews were held in 8 schools with 4 male and 6 female--2 of whom…

Cross-cultural perceptions of assessment of selected international science teachers in American high schools

NASA Astrophysics Data System (ADS)

Hutchison, Charles B.; Bailey, Lynne M.

2006-12-01

International high school science teachers are crossing international and cultural borders to teach, raising important issues in education. In this article, we describe the cross-cultural assessment challenges that four international science teachers encountered when they migrated to teach in the United States. These included differences in grade expectations for a given quality of work, the weight given to final examinations, the assessment process, and cut-off scores for letter grades. To become proficient in their new teaching contexts, the participating teachers had to modify (or hybridize) their assessment philosophies and practices in order to conform to the expectations of their new schools. This hybridization process ushered them into what is proposed as the pedagogical imaginary; a transitional space between the "purity" of their native educational conventions and that of their American schools. The implications of these findings are discussed in hopes of improving high school science teaching experiences for international science teachers.

The Junior High School Integrated Science: The Actual Teaching Process in the Perspective of an Ethnographer

ERIC Educational Resources Information Center

Adu-Gyamfi, Kenneth; Ampiah, Joseph Ghartey

2016-01-01

Science education at the Basic School (Primary and Junior High School) serves as the foundation upon which higher levels of science education are pivoted. This ethnographic study sought to investigate the teaching of Integrated Science at the Junior High School (JHS) level in the classrooms of two science teachers in two schools of differing…

The Effect of a Collaborative Mentoring Program on Beginning Science Teachers' Inquiry-based Teaching Practice

NASA Astrophysics Data System (ADS)

Nam, Jeonghee; Seung, Eulsun; Go, MunSuk

2013-03-01

This study investigated how a collaborative mentoring program influenced beginning science teachers' inquiry-based teaching and their reflection on practice. The one-year program consisted of five one-on-one mentoring meetings, weekly science education seminars, weekly mentoring group discussions, and self-evaluation activities. The participants were three beginning science teachers and three mentors at the middle school level (7-9th grades) in an urban area of South Korea. For each beginning teacher, five lessons were evaluated in terms of lesson design/implementation, procedural knowledge, and classroom culture by using the Reformed Teaching Observation Protocol. Five aspects of the beginning teachers' reflections were identified. This study showed that a collaborative mentoring program focusing on inquiry-based science teaching encouraged the beginning teachers to reflect on their own perceptions and teaching practice in terms of inquiry-based science teaching, which led to changes in their teaching practice. This study also highlighted the importance of collaborative interactions between the mentors and the beginning teachers during the mentoring process.

The Learning Cycle and College Science Teaching.

ERIC Educational Resources Information Center

Barman, Charles R.; Allard, David W.

Originally developed in an elementary science program called the Science Curriculum Improvement Study, the learning cycle (LC) teaching approach involves students in an active learning process modeled on four elements of Jean Piaget's theory of cognitive development: physical experience, referring to the biological growth of the central nervous…

Education for Life and through out Life

ERIC Educational Resources Information Center

Rangaswamy, A.; Balasubramanian, P.; Allwin, S.

2006-01-01

Teaching is successful only to the extent to which students are able to grasp it fully. In this age of science and technology, the process of teaching has reached new dimensions. Teaching is not a one sided affair. In the context of modern developments teaching is a tripolar process. The traditional teaching of 30 or 40 students is no longer…

The science teacher as the organic link

NASA Astrophysics Data System (ADS)

Alexakos, Konstantinos

2007-10-01

This study began as an exploration of the following questions: What do individual science teachers bring into their teaching that frames and mediates their teaching philosophy and of what, if any, value is it in science education? Drawing from a life history case study of Anna, an in-service science teacher, I show that her moral beliefs, perceptions, experiences, and interests dialectically frame and mediate her views of science teaching. Anna brings into her classroom her personal philosophy of teaching and learning. This is in contrast to studies concluding that different aspects of teachers' personal philosophies, such as their understanding of the nature of science and their behavior and pedagogical decisions are not connected and may be neatly segregated from one another. In the "transmission" [Transmission is presented in quotes because in this manuscript it is used dialectically, as opposed to a one-directional and "objective" process. The science teacher is not just a "lens" for the transmission of cultural capital; the cultural capital "transmitted" though Anna is seen as existing in a state of creation/recreation.] of cultural capital, Anna embodies dialectical relationships and processes, not just as a mediator of culture, but also as an organic entity that contributes to how culture is created, recreated and exchanged in a science classroom, and as such, is referred to here as an organic link. Science teacher identity and science teaching philosophy are thus seen as much closer to the human experience—merging the intellectual, the personal, the cultural, the political, and the environmental with the relationships and the processes that connect each to the others and to the whole. They are viewed as, at once, being mediated by as well as mediating one another. I argue that the total of what science teaching is exceeds the sum of its commonly "measurable" parts, like content and pedagogical knowledge. Although the designing and framing of this study was initially a life history investigation, a dialectical approach and analysis were found to be necessary to develop the theoretical conceptualization of the emerging interwoven themes, illustrating how the researcher's own philosophy and development are dialectically intertwined with, and at once affect and are effects of the research process and outcomes.

Teaching Constructivist Science, K-8: Nurturing Natural Investigators in the Standards-Based Classroom

ERIC Educational Resources Information Center

Bentley, Michael L.; Ebert, Edward S., II; Ebert, Christine

2007-01-01

Good teachers know that science is more than just a collection of facts in a textbook and that teaching science goes beyond the mere transmission of information. Actively engaging students in the learning process is critical to building their knowledge base, assessing progress, and meeting science standards. This book shows teachers how to…

Macroscole. A Holistic Approach to Science Teaching. A Discussion Paper. D-82/2.

ERIC Educational Resources Information Center

Risi, Marcel

Possible relationships between industrial innovation and science education are discussed, focusing on three systems for studying the process of development and identifying certain determining factors. The purpose of the approach is to identify the salient characteristics of the industrial world, technological development, and science teaching by…

Teaching Science in a Multicultural World.

ERIC Educational Resources Information Center

Offutt, Elizabeth Rhodes

This book is designed to be a source of ideas and motivation to encourage curiosity in children, provide opportunities to develop scientific processing skills, find out about cultures around the world, and explore science concepts. This resource incorporates multicultural literature and approaches into the teaching of science concepts in the…

Methods and Strategies: Beyond the Textbook--But Not Just "Hands On". Using High-Quality Informational Texts to Meet the "Next Generation Science Standards"

ERIC Educational Resources Information Center

Vick, Matthew

2016-01-01

Science teaching continues to move away from teaching science as merely a body of facts and figures to be memorized to a process of exploring and drawing conclusions. The Next Generation Science Standards (NGSS) emphasize eight science and engineering practices that ask students to apply scientific and engineering reasoning and explanation. This…

Science Teaching as Educational Interrogation of Scientific Research

ERIC Educational Resources Information Center

Ginev, Dimitri

2013-01-01

The main argument of this article is that science teaching based on a pedagogy of questions is to be modeled on a hermeneutic conception of scientific research as a process of the constitution of texts. This process is spelled out in terms of hermeneutic phenomenology. A text constituted by scientific practices is at once united by a hermeneutic…

Effect of Inquiry-Based Learning Approach on Student Resistance in a Science and Technology Course

ERIC Educational Resources Information Center

Sever, Demet; Guven, Meral

2014-01-01

The aim of this study was to identify the resistance behaviors of 7th grade students exhibited during their Science and Technology course teaching-learning processes, and to remove the identified resistance behaviors through teaching-learning processes that were constructed based on the inquiry-based learning approach. In the quasi-experimentally…

International teachers negotiating 21st century science classrooms: a question of hybridized identities and pedagogical imaginaries

NASA Astrophysics Data System (ADS)

Tippins, Deborah J.; Hammond, Lorie; Hutchison, Charles B.

2006-12-01

International high school science teachers are crossing international and cultural borders to teach, raising important issues in education. In this article, we describe the cross-cultural assessment challenges that four international science teachers encountered when they migrated to teach in the United States. These included differences in grade expectations for a given quality of work, the weight given to final examinations, the assessment process, and cutoff scores for letter grades. To become proficient in their new teaching contexts, the participating teachers had to modify (or hybridize) their assessment philosophies and practices in order to conform to the expectations of their new schools. This hybridization process ushered them into what is proposed as the Pedagogical imaginary; a transitional space between the ``purity'' of their native educational conventions and that of their American schools. The implications of these findings are discussed in hopes of improving high school science teaching experiences for international science teachers.

Developing pre-service science teachers' pedagogical content knowledge by using training program

NASA Astrophysics Data System (ADS)

Udomkan, Watinee; Suwannoi, Paisan

2018-01-01

A training program was developed for enhancing pre-service science teachers' pedagogical content knowledge (PCK). The pre-service science teachers are able to: understand science curriculum, knowledge of assessment in science, knowledge of students' understanding of science, instructional strategies and orientations towards science teaching, which is conceptualized as PCK [5]. This study examined the preservice science teachers' understandings and their practices which include five pre-service science teachers' PCK. In this study, the participants demonstrated their PCK through the process of the training program by writing content representations (CoRes), preparing the lesson plans, micro-teaching, and actual teaching respectively. All pre-service science teachers' performs were collected by classroom observations. Then, they were interviewed. The results showed that the pre-service science teachers progressively developed knowledge components of PCK. Micro-teaching is the key activities for developing PCK. However, they had some difficulties in their classroom teaching. They required of sufficient ability to design appropriate instructional strategies and assessment activities for teaching. Blending content and pedagogy is also a matter of great concern. The implication of this study was that science educators can enhance pre-service science teachers' PCK by fostering their better understandings of the instructional strategies, assessment activities and blending between content and pedagogy in their classroom.

Investigating the experience: A case study of a science professional development program based on Kolb's experiential learning model

NASA Astrophysics Data System (ADS)

Davis, Brian L.

Professional development for educators has been defined as the process or processes by which teachers achieve higher levels of professional competence and expand their understanding of self, role, context and career (Duke and Stiggins, 1990). Currently, there is limited research literature that examines the effect a professional development course, which uses David Kolb's experiential learning model, has on the professional growth and teaching practice of middle school science teachers. The purpose of this interpretive case study is to investigate how three science teachers who participated in the Rivers to Reef professional development course interpreted the learning experience and integrated the experience into their teaching practice. The questions guiding this research are (1) What is the relationship between a professional development course that uses an experiential learning model and science teaching practice? (2) How do the Rivers to Reef participants reflect on and describe the course as a professional growth experience? The creation of the professional development course and the framework for the study were established using David Kolb's (1975) experiential learning theory and the reflection process model designed by David Boud (1985). The participants in the study are three middle school science teachers from schools representing varied settings and socioeconomic levels in the southeastern United States. Data collected used the three-interview series interview format designed by Dolbere and Schuman (Seidman, 1998). Data was analyzed for the identification of common categories related to impact on science teaching practice and professional growth. The major finding of this study indicates the years of teaching experience of middle school science teachers significantly influences how they approach professional development, what and how they learn from the experience, and the ways in which the experience influences their teaching practices.

Science Teaching as a Dialogue--Bakhtin, Vygotsky and Some Applications in the Classroom

ERIC Educational Resources Information Center

Kubli, Fritz

2005-01-01

The theory of dialogism, developed by the Russian linguist Mikhail Bakhtin (1895-1975) with regard to literature and everyday communication, can be used to improve the teaching of science. Some of Bakhtin's conceptual instruments are helpful in analysing the teaching process, and it is interesting to compare them with former ideas about teaching…

Legislative Challenges to the Teaching of Evolution: The Science Educators' Response.

ERIC Educational Resources Information Center

Wavering, Michael; Duggan-Haas, Don

The mandate to teach the theory of evolution and evolution-related concepts in biology and other appropriate science classes in public schools is relatively clear in 31 states and the District of Columbia. In the most recent state legislative sessions, some legislators made attempts to use the legislative processes to restrict the teaching of…

Getting Started in the Scholarship of Teaching and Learning: A "How To" Guide for Science Academics

ERIC Educational Resources Information Center

Rowland, Susan L.; Myatt, Paula M.

2014-01-01

SoTL stands for the Scholarship of Teaching and Learning. The acronym, said "sottle" or "sote-all," describes research that involves rigorous examination of teaching and learning by faculty who are actively involved in the educational process. The number of natural-science faculty engaged in SoTL is increasing, and their…

Science Supports Education: The Behavioral Research Base for Psychology's Top 20 Principles for Enhancing Teaching and Learning

ERIC Educational Resources Information Center

Lucariello, Joan M.; Nastasi, Bonnie K.; Anderman, Eric M.; Dwyer, Carol; Ormiston, Heather; Skiba, Russell

2016-01-01

Psychological science has much to contribute to preK-12 education because substantial psychological research exists on the processes of learning, teaching, motivation, classroom management, social interaction, communication, and assessment. This article details the psychological science that led to the identification, by the American Psychological…

Image Processing for Teaching.

ERIC Educational Resources Information Center

Greenberg, R.; And Others

1993-01-01

The Image Processing for Teaching project provides a powerful medium to excite students about science and mathematics, especially children from minority groups and others whose needs have not been met by traditional teaching. Using professional-quality software on microcomputers, students explore a variety of scientific data sets, including…

Learning and teaching about the nature of science through process skills

NASA Astrophysics Data System (ADS)

Mulvey, Bridget K.

This dissertation, a three-paper set, explored whether the process skills-based approach to nature of science instruction improves teachers' understandings, intentions to teach, and instructional practice related to the nature of science. The first paper examined the nature of science views of 53 preservice science teachers before and after a year of secondary science methods instruction that incorporated the process skills-based approach. Data consisted of each participant's written and interview responses to the Views of the Nature of Science (VNOS) questionnaire. Systematic data analysis led to the conclusion that participants exhibited statistically significant and practically meaningful improvements in their nature of science views and viewed teaching the nature of science as essential to their future instruction. The second and third papers assessed the outcomes of the process skills-based approach with 25 inservice middle school science teachers. For the second paper, she collected and analyzed participants' VNOS and interview responses before, after, and 10 months after a 6-day summer professional development. Long-term retention of more aligned nature of science views underpins teachers' ability to teach aligned conceptions to their students yet it is rarely examined. Participants substantially improved their nature of science views after the professional development, retained those views over 10 months, and attributed their more aligned understandings to the course. The third paper addressed these participants' instructional practices based on participant-created video reflections of their nature of science and inquiry instruction. Two participant interviews and class notes also were analyzed via a constant comparative approach to ascertain if, how, and why the teachers explicitly integrated the nature of science into their instruction. The participants recognized the process skills-based approach as instrumental in the facilitation of their improved views. Additionally, the participants saw the nature of science as an important way to help students to access core science content such as the theory of evolution by natural selection. Most impressively, participants taught the nature of science explicitly and regularly. This instruction was student-centered, involving high levels of student engagement in ways that represented applying, adapting, and innovating on what they learned in the summer professional development.

An analysis of elementary teachers' perceptions of teaching science as inquiry

NASA Astrophysics Data System (ADS)

Domjan, Heather Nicole

The purpose of this study is to describe elementary school teachers' perceptions of science as inquiry in science instruction. A descriptive survey research design was used to collect data regarding elementary science teachers' knowledge and beliefs related to inquiry and its role in science education. The written section of the survey was analyzed and interpreted descriptively through phenomenological data and the constant comparative method (Glaser & Strauss, 1967; Lincoln & Guba, 1985). The researcher used the constant comparative method to identify statements, perceptions, and impressions that occurred over time during the study (Janesick, 1994). Ninety-two elementary school teachers who teach science in a large suburban district southwest of Houston, Texas were administered a three part Understanding Science as Inquiry Survey (USAI) developed by the researcher. Participants communicated in writing personal definitions of inquiry in elementary science as well as determined to what extent inquiry was used in four elementary science classroom scenarios. The survey items were based on the following four components of inquiry described by Inquiry and the National Science Education Standards (2000): (1) conceptual knowledge, (2) process skills, (3) nature of science, and (4) affect. The study describes elementary school teachers' perceptions about science as inquiry. Conclusions for Part A of the USAI Survey indicate that participants define inquiry as: mostly process skills, some conceptual knowledge, and very little affect with no perception of the nature of science. The Likert scale ratings for the scenarios in Part B of the USAI Survey reveal that participants have varied perceptions regarding teaching science as inquiry. The written section of Part B reveals participants' perceptions to be similar to that of their Likert scale ratings except in scenario one. The researcher concludes that the participants in this study appear to have an incomplete understanding of teaching science as inquiry. This study suggests that elementary teachers might benefit from increased and sustained professional development programs centered on inquiry teaching strategies. Professional development activities on teaching science as inquiry create opportunities for teachers to confront and develop ways of thinking about inquiry and ultimately enhance inquiry-based teaching in their classrooms.

`You Have to Give Them Some Science Facts': Primary Student Teachers' Early Negotiations of Teacher Identities in the Intersections of Discourses About Science Teaching and About Primary Teaching

NASA Astrophysics Data System (ADS)

Danielsson, Anna T.; Warwick, Paul

2014-04-01

In the broadest sense, the goal for primary science teacher education could be described as preparing these teachers to teach for scientific literacy. Our starting point is that making such science teaching accessible and desirable for future primary science teachers is dependent not only on their science knowledge and self-confidence, but also on a whole range of interrelated sociocultural factors. This paper aims to explore how intersections between different Discourses about primary teaching and about science teaching are evidenced in primary school student teachers' talk about becoming teachers. The study is founded in a conceptualisation of learning as a process of social participation. The conceptual framework is crafted around two key concepts: Discourse (Gee 2005) and identity (Paechter, Women's Studies International Forum, 26(1):69-77, 2007). Empirically, the paper utilises semi-structured interviews with 11 primary student teachers enrolled in a 1-year Postgraduate Certificate of Education course. The analysis draws on five previously identified teacher Discourses: `Teaching science through inquiry', `Traditional science teacher', `Traditional primary teacher', `Teacher as classroom authority', and `Primary teacher as a role model' (Danielsson and Warwick, International Journal of Science Education, 2013). It explores how the student teachers, at an early stage in their course, are starting to intersect these Discourses to negotiate their emerging identities as primary science teachers.

Toward making the invisible visible: Studying science teaching self-efficacy beliefs

NASA Astrophysics Data System (ADS)

Perkins, Catherine J.

This dissertation consists of two articles to be submitted for publication. The first, a literature review, makes visible common influences on science teaching self-efficacy beliefs and also points to potentially invisible validation concerns regarding the instrument used. The second investigates the participants' invisible science teaching self-efficacy beliefs and, through the use of a more focused interview, makes those beliefs visible. Science teaching self-efficacy beliefs are science teachers' perceptions of their abilities to teach science effectively. The construct "teaching self-efficacy" originated in social cognitive theory (Bandura, 1977). The first article reviews the mixed results from teaching self-efficacy research in science contexts. The review focuses upon factors that facilitate or inhibit the development of self-efficacy beliefs among science teachers across stages of their careers. Although many studies of science teaching self-efficacy beliefs have utilized the Science Teaching Efficacy Belief Instrument - STEBI (Enochs & Riggs, 1990; Riggs & Enochs, 1990), this review also includes non-STEBI studies in order to represent diverse lines of research methodology. The review's findings indicate that antecedent factors such as science activities in and out of school, teacher preparation, science teaching experiences and supportive job contexts are significant influences on the development of science teaching self-efficacy beliefs. The review also indicates that the majority of these studies are short term and rely on a single STEBI administration with the collection of antecedent/demographic and/or interview data. The second article documents a study that responded to the above literature review findings. This study utilized multiple STEBI administrations during the preservice and beginning year of teaching for two science teachers. Rather than general questions, these participants were asked item specific, yet open-ended, questions to determine what events or experiences the participants felt influenced their survey answers. This methodological approach was chosen to add clarity to the STEBI scores and to add another layer in the ongoing process of instrument validation. Unlike some studies in science teaching self-efficacy, both participants' STEBI scores continued to increase as they transitioned from preservice to beginning teachers. The participant responses to the focused interview probes also validated their STEBI scores 77% of the time.

Teaching Science: A Picture Perfect Process.

ERIC Educational Resources Information Center

Leyden, Michael B.

1994-01-01

Explains how teachers can use graphs and graphing concepts when teaching art, language arts, history, social studies, and science. Students can graph the lifespans of the Ninja Turtles' Renaissance namesakes (Donatello, Michelangelo, Raphael, and Leonardo da Vinci) or world population growth. (MDM)

Exploring the meaning of practicing classroom inquiry from the perspectives of National Board Certified Science Teachers

NASA Astrophysics Data System (ADS)

Karaman, Ayhan

Inquiry has been one of the most prominent terms of the contemporary science education reform movement (Buck, Latta, & Leslie-Pelecky, 2007; Colburn, 2006; Settlage, 2007). Practicing classroom inquiry has maintained its central position in science education for several decades because science education reform documents promote classroom inquiry as the potential savior of science education from its current problems. Likewise, having the capabilities of teaching science through inquiry has been considered by National Board for Professional Teaching Standards [NBPTS] as one of the essential elements of being an accomplished science teacher. Successful completion of National Board Certification [NBC] assessment process involves presenting a clear evidence of enacting inquiry with students. Despite the high-profile of the word inquiry in the reform documents, the same is not true in schools (Crawford, 2007). Most of the science teachers do not embrace this type of approach in their everyday teaching practices of science (Johnson, 2006; Luera, Moyer, & Everett, 2005; Smolleck, Zembal-Saul, & Yoder, 2006; Trumbull, Scarano, & Bonney, 2006). And the specific meanings attributed to inquiry by science teachers do not necessarily match with the original intentions of science education reform documents (Matson & Parsons, 2006; Wheeler, 2000; Windschitl, 2003). Unveiling the various meanings held by science teachers is important in developing better strategies for the future success of science education reform efforts (Jones & Eick, 2007; Keys & Bryan, 2001). Due to the potential influences of National Board Certified Science Teachers [NBCSTs] on inexperienced science teachers as their mentors, examining inquiry conceptions of NBCSTs is called for. How do these accomplished practitioners understand and enact inquiry? The purpose of this dissertation research study was twofold. First, it investigated the role of NBC performance assessment process on the professional development of science teachers. Second, it examined the meaning of practicing classroom inquiry for National Board Certified Science Teachers [NBCSTs]. Based on the specific cases of four NBCSTs, this naturalistic inquiry study was conducted to answer to those questions with the involvement of the following qualitative data sources: classroom observations, in-depth teacher interviews, and document analyses of teacher portfolios. The specific cases in this study indicated that undergoing the performance assessment process of NBC played an affirmational role for National Board Certified Science Teachers [NBCSTs] in their professional development. Their successful completion of the portfolio assessment process created a sharpened confidence into their existing notions and ways of teaching science. In the study, not all teachers were equally open to science education reform ideas. This meant that NBC experience strengthened the conventional notions of teaching science held by some teachers rather than generating a higher affiliation with the reform ideas. The teacher cases presented in this study denoted that teachers' conceptions of classroom inquiry were driven both by scientific and constructivist rationales. However, NBCSTs failed to create broader operational definitions of classroom inquiry. They tended to reduce the meaning of classroom inquiry into empirical investigations of students. The conventional representation of the scientific method as a stepwise linear process influenced teachers' understandings and practices of classroom inquiry. NBCSTs used inquiry in their classrooms to introduce their students to the cognitive processes and the actions of practicing scientists but not necessarily to teach scientific principles. Their reluctance to teach scientific principles through inquiry developed in parallel to their tendency of associating classroom inquiry with the highest levels of student autonomy. Participant teachers' particular understandings of scientific literacy produced a tension between embracing inquiry more in their teaching practices of science and educating scientifically literate students. The teachers in the study attributed the hurdles that kept them from using more inquiry with their students to external factors. In the final chapter of the dissertation study, these findings were discussed in connection with the education literature.

Design and Assessment of Online, Interactive Tutorials That Teach Science Process Skills.

PubMed

Kramer, Maxwell; Olson, Dalay; Walker, J D

2018-06-01

Explicit emphasis on teaching science process skills leads to both gains in the skills themselves and, strikingly, deeper understanding of content. Here, we created and tested a series of online, interactive tutorials with the goal of helping undergraduate students develop science process skills. We designed the tutorials in accordance with evidence-based multimedia design principles and student feedback from usability testing. We then tested the efficacy of the tutorials in an introductory undergraduate biology class. On the basis of a multivariate ordinary least-squares regression model, students who received the tutorials are predicted to score 0.82 points higher on a 15-point science process skill assessment than their peers who received traditional textbook instruction on the same topic. This moderate but significant impact indicates that well-designed online tutorials can be more effective than traditional ways of teaching science process skills to undergraduate students. We also found trends that suggest the tutorials are especially effective for nonnative English-speaking students. However, due to a limited sample size, we were unable to confirm that these trends occurred due to more than just variation in the student group sampled.

Explore the Human-Based Teaching for the Professional Course of Materials Science and Engineering

ERIC Educational Resources Information Center

Zhao, Yiping; Chen, Li; Zhang, Yufeng

2008-01-01

As viewed from two sides such as teacher and student, in this article, we explore the human-based teaching reform for the college professional course of materials Science and Engineering, point out the qualities and conditions that professional teacher should possess in the process of human-based teaching reform of professional course and the…

Effects of Lesson Study on Science Teacher Candidates' Teaching Efficacies

ERIC Educational Resources Information Center

Pektas, Murat

2014-01-01

The aim of this study was to investigate the effects of the lesson study process on science teacher candidates' teaching in terms of lesson plan content, pedagogy and classroom management based on expert, peer and self-evaluations. The participants of this case study consisted of 16 teacher candidates in elementary science education in their…

Reflecting on Teaching of the "Appliance of Science"

ERIC Educational Resources Information Center

Linfield, Rachel

2016-01-01

As a primary school teacher, Rachel Linfield has always been insistent that her students were taught and understood the use behind a particular science fact or process. These days, however, she finds very few students who can recall a single useful science fact that they learned in primary school. Linfield wonders if teaching of the National…

The CSI Academy: Encouraging Diverse Students to Consider Science Careers and Science Teaching

ERIC Educational Resources Information Center

Kaye, Karen; Turner, John F.; Emigh, James

2011-01-01

The CSI academies employed a multi-layered, collaborative approach to encourage diverse students to consider STEM careers, including science teaching. The academies recruited a diverse group of high school students. This was due, in large part, to the creation of a unique selection process that identified students with unrealized potential. The…

The Development and Validation of an Instrument to Measure Preservice Teachers' Self-Efficacy in Regard to The Teaching of Science as Inquiry

NASA Astrophysics Data System (ADS)

Dira Smolleck, Lori; Zembal-Saul, Carla; Yoder, Edgar P.

2006-06-01

The purpose of this study was to develop, validate, and establish the reliability of an instrument that measures preservice teachers' self-efficacy in regard to the teaching of science as inquiry. The instrument, Teaching Science as Inquiry (TSI), is based upon the work of Bandura (1977, 1981, 1982, 1986, 1989, 1995, 1997), Riggs (1988), and Enochs and Riggs (1990). Self-efficacy in regard to the teaching of science as inquiry was measured through the use of a 69-item Likert-type scale instrument designed by the author of the study. Based on the standardized development processes used and the associated evidence, the TSI appears to be a content and construct valid instrument with high internal reliability for use with preservice elementary teachers to assess self-efficacy beliefs in regard to the teaching of science as inquiry.

The Development and Validation of an Instrument to Measure Preservice Teachers' Self-Efficacy in Regard to The Teaching of Science as Inquiry

NASA Astrophysics Data System (ADS)

Smolleck, Lori Dira; Zembal-Saul, Carla; Yoder, Edgar P.

2006-06-01

The purpose of this study was to develop, validate, and establish the reliability of an instrument that measures preservice teachers' self-efficacy in regard to the teaching of science as inquiry. The instrument, Teaching Science as Inquiry (TSI), is based upon the work of Bandura (1977, 1981, 1982, 1986, 1989, 1995, 1997), Riggs (1988), and Enochs and Riggs (1990). Self-efficacy in regard to the teaching of science as inquiry was measured through the use of a 69-item Likert-type scale instrument designed by the author of the study. Based on the standardized development processes used and the associated evidence, the TSI appears to be a content and construct valid instrument with high internal reliability for use with preservice elementary teachers to assess self-efficacy beliefs in regard to the teaching of science as inquiry.

Unawareness to Production, Dropout to Innovator--Primary Teachers' Understanding and Use of a Science, Technology and Society Approach to Science Teaching

ERIC Educational Resources Information Center

Rollnick, Marissa; Dlamini, Betty T.; Bradley, John

2015-01-01

This paper investigates the process of teacher change in a group of 8 primary school teachers during their exposure to a science, technology and society (STS) approach to teaching Science in Swaziland. The research aimed to establish the effect of support given to teachers in using the approach through a series of workshops, followed by a 5-week…

Basic Science Process Skills. An Inservice Workshop Kit: Outlines and Activities.

ERIC Educational Resources Information Center

Rowland, Paul; And Others

A science process skill project was developed to help elementary teachers meet competency standards in New Mexico for teaching the process approach in their science classes. An outline of the process skills along with recommended activities are presented in this document. Performance objectives are identified and a sample activity form is…

Identfying the Needs of Pre-Service Classroom Teachers about Science Teaching Methodology Course in Terms of Parlett's Illuminative Program Evaluation Model

ERIC Educational Resources Information Center

Çaliskan, Ilke

2014-01-01

The aim of this study was to identify the needs of third grade classroom teaching students about science teaching course in terms of Parlett's Illuminative program evaluation model. Phenomographic research design was used in this study. Illuminative program evaluation model was chosen for this study in terms of its eclectic and process-based…

Identfying the Needs of Pre-Service Classroom Teachers about Science Teaching Methodology Courses in Terms of Parlett's Illuminative Program Evaluation Model

ERIC Educational Resources Information Center

Çaliskan, Ilke

2014-01-01

The aim of this study was to identify the needs of third grade classroom teaching students about science teaching course in terms of Parlett's Illuminative program evaluation model. Phenomographic research design was used in this study. Illuminative program evaluation model was chosen for this study in terms of its eclectic and process-based…

Introducing Engineering Design to a Science Teaching Methods Course through Educational Robotics and Exploring Changes in Views of Preservice Elementary Teachers

ERIC Educational Resources Information Center

Kaya, Erdogan; Newley, Anna; Deniz, Hasan; Yesilyurt, Ezgi; Newley, Patrick

2017-01-01

Engineering has become an important subject in the Next Generation Science Standards (NGSS), which have raised engineering design to the same level as scientific inquiry when teaching science disciplines at all levels. Therefore, preservice elementary teachers (PSTs) need to know how to integrate the engineering design process (EDP) into their…

The Professional Preparation of Malaysian Teachers in the Implementation of Teaching and Learning of Mathematics and Science in English

ERIC Educational Resources Information Center

Idris, Noraini; Cheong, Loh Sau; Nor, Norjoharuddeen Mohd.; Razak, Ahmad Zabidi Abdul; Saad, Rahimi Md.

2007-01-01

Malaysia is in the process of changing the medium of instruction for mathematics and science from Malay to English since 2003. To ensure the success of this transition, teachers have to be professional prepared to teach in English. This research aimed to survey the Malaysian science/mathematics teachers' perception towards this professional…

Science Engagement at the Museum School: Teacher Perspectives on the Contribution of Museum Pedagogy to Science Teaching

ERIC Educational Resources Information Center

Watermeyer, Richard

2015-01-01

This paper explores the accounts of science teachers working within the UK's only "museum school" and what they perceive as the benefits and shortcomings of "museum pedagogy" as a process of object-based teaching (and learning). Museum pedagogy is in this context considered for its potential in harmonising informal and formal…

How Pre-Service Teachers' Understand and Perform Science Process Skills

ERIC Educational Resources Information Center

Chabalengula, Vivien Mweene; Mumba, Frackson; Mbewe, Simeon

2012-01-01

This study explored pre-service teachers' conceptual understanding and performance on science process skills. A sample comprised 91 elementary pre-service teachers at a university in the Midwest of the USA. Participants were enrolled in two science education courses; introductory science teaching methods course and advanced science methods course.…

Enhancing Teaching Assistants' (TAs') Inquiry Teaching by Means of Teaching Observations and Reflective Discourse

ERIC Educational Resources Information Center

Miller, Kristen; Brickman, Peggy; Oliver, J. Steve

2014-01-01

Recent education reform efforts advocate teaching the process of science (inquiry) in undergraduate lecture and laboratory classes. To meet this challenge, professional development for the graduate student instructors (teaching assistants, or TAs) often assigned to teach these classes is needed. This study explored the implementation of an…

The effects of a STEM professional development intervention on elementary teachers

NASA Astrophysics Data System (ADS)

Dailey, Deborah D.

To improve and sustain science teaching and learning in the elementary grades, experts recommended school districts afford time in the day for science instruction, secure the necessary resources for an investigative classroom, and provide teachers with increased professional development opportunities that target content knowledge, pedagogical skills, and confidence in teaching science (e.g. Buczynski & Hansen, 2010; Brand & Moore, 2011; NSB, 2010). In particular, researchers recommended teachers receive quality professional development that is sustained over time and embedded in the real world of the classroom (e.g. Buczynski & Hansen, 2010; Cotabish & Robinson, 2012). The purpose of this dissertation was to examine changes in elementary teachers' science teaching perceptions, concerns, and science process skills during and after participation in a STEM-focused professional development intervention involving embedded support using peer coaching. The positive effects of sustained, embedded professional development programs on science instruction have been documented by multiple research studies (e.g. Buczynski & Hansen, 2010; Cotabish, Dailey, Hughes, & Robinson, 2011; Duran & Duran, 2005; Levitt, 2011); however, few studies have investigated the effects after removal of the professional development support (Johnson, Kahle, & Fargo, 2007; Shymansky, Yore, & Anderson, 2004). By examining the changes across three years (including one year after the conclusion of the professional development intervention), the researcher in the present study considered the dosage of intervention needed to bring about and preserve significant changes in the participant teachers. To measure the impact of the intervention on teachers, the researcher used quantitative data supported by qualitative interviews. Results indicated that changes in science teaching perceptions were realized after one year or 60 hours of intervention; however, it took two years or 120 hours of intervention to see significant changes in teachers' science process skills. Of particular significance, the changes in teachers' science teaching perceptions, concerns, and science process skills held constant one year after removal of the professional development support.

Changes in Pre-Service Science Teachers' Understandings After Being Involved in Explicit Nature of Science and Socioscientific Argumentation Processes

ERIC Educational Resources Information Center

Kutluca, A. Y.; Aydin, A.

2017-01-01

The study explored the changes in pre-service science teachers' understanding of the nature of science and their opinions about the nature of science, science teaching and argumentation after their participation in explicit nature of science (NOS) and socioscientific argumentation processes. The participants were 56 third-grade pre-service science…

Efficacy of ACA Strategies in Biography-Driven Science Teaching: An Investigation

ERIC Educational Resources Information Center

MacDonald, Grizelda L.; Miller, Stuart S.; Murry, Kevin; Herrera, Socorro; Spears, Jacqueline D.

2013-01-01

This study explored the biography-driven approach to teaching culturally and linguistically diverse students in science education. Biography-driven instruction (BDI) embraces student diversity by incorporating students' sociocultural, linguistic, cognitive, and academic dimensions of their biographies into the learning process (Herrera in…

Developing Adaptive Teaching Competency through Coaching

ERIC Educational Resources Information Center

Vogt, Franziska; Rogalla, Marion

2009-01-01

The research project Adaptive Teaching Competency seeks to conceptualise the processes of tuning teaching to individual students' learning needs and to empirically test, within the field of science teaching, to what extent Adaptive Teaching Competency can be fostered through teacher education. 32 primary and secondary teachers took part in an…

A case of learning to teach elementary science: Investigating beliefs, experiences, and tensions

NASA Astrophysics Data System (ADS)

Bryan, Lynn Ann

This study examines how preservice elementary teacher beliefs and experiences within the context of reflective science teacher education influence the development of professional knowledge. From a cognitive constructivist theoretical perspective, I conducted a case analysis to investigate the beliefs about science teaching and learning held by a preservice teacher (Barbara), identify the tensions she encountered in learning to teach elementary science, understand the frames from which she identified problems of practice, and discern how her experiences influenced the process of reflecting on her own science teaching. From an analysis of interviews, observation, and written documents, I constructed a profile of Barbara's beliefs that consisted of three foundational and three dualistic beliefs about science teaching and learning. Her foundational beliefs concerned: (a) the value of science and science teaching, (b) the nature of scientific concepts and goals of science instruction, and (c) control in the science classroom. Barbara held dualistic beliefs about: (a) how children learn science, (b) the science students' role, and (c) the science teacher's role. The dualistic beliefs formed two contradictory nests of beliefs. One nest, grounded in life-long science learner experiences, reflected a didactic teaching orientation and predominantly guided her practice. The second nest, not well-grounded in experience, embraced a hands-on approach and predominantly guided her vision of practice. Barbara encountered tensions in thinking about science teaching and learning as a result of inconsistencies between her vision of science teaching and her actual practice. Confronting these tensions prompted Barbara to rethink the connections between her classroom actions and students' learning, create new perspectives for viewing her practice, and consider alternative practices more resonant with her visionary beliefs. However, the self-reinforcing belief system created by her didactic nest of beliefs, control beliefs, and belief about the goals of science instruction prevented Barbara from enacting new frames in practice. The findings contribute to an understanding of the relationship between beliefs and experiences in learning to teach and indicate that reframing is crucial in developing professional knowledge. Furthermore, the findings underscore the significance of (a) identifying prospective teachers' beliefs for designing teacher preparation programs, and (b) offering experiences as professionals early in the careers of prospective teachers.

Improving Reading in Science. Reading Aids Series.

ERIC Educational Resources Information Center

Thelen, Judith

The material in this monograph is based on the idea that science content and the reading and reasoning processes for learning may be taught simultaneously in the science classroom. Topics of the six chapters are: distinguishing between content and process, developmental and functional reading; diagnosis in teaching science; preparatory activities…

Using a Computer Simulation To Teach Science Process Skills to College Biology and Elementary Education Majors.

ERIC Educational Resources Information Center

Lee, Aimee T.; Hairston, Rosalina V.; Thames, Rachel; Lawrence, Tonya; Herron, Sherry S.

2002-01-01

Describes the Lateblight computer simulation implemented in the general biology laboratory and science methods course for elementary teachers to reinforce the processes of science and allow students to engage, explore, explain, elaborate, and evaluate the methods of building concepts in science. (Author/KHR)

The transfer of learning process: From an elementary science methods course to classroom instruction

NASA Astrophysics Data System (ADS)

Carter, Nina Leann

The purpose of this qualitative multiple-case study was to explore the transfer of learning process in student teachers. This was carried out by focusing on information learned from an elementary science methods and how it was transferred into classroom instruction during student teaching. Participants were a purposeful sampling of twelve elementary education student teachers attending a public university in north Mississippi. Factors that impacted the transfer of learning during lesson planning and implementation were sought. The process of planning and implementing a ten-day science instructional unit during student teaching was examined through lesson plan documentation, in-depth individual interviews, and two focus group interviews. Narratives were created to describe the participants' experiences as well as how they plan for instruction and consider science pedagogical content knowledge (PCK). Categories and themes were then used to build explanations applying to the research questions. The themes identified were Understanding of Science PCK, Minimalism, Consistency in the Teacher Education Program, and Emphasis on Science Content. The data suggested that the participants lack in their understanding of science PCK, took a minimalistic approach to incorporating science into their ten-day instructional units, experienced inconsistencies in the teacher education program, and encountered a lack of emphasis on science content in their field experience placements. The themes assisted in recognizing areas in the elementary science methods courses, student teaching field placements, and university supervision in need of modification.

Using an Artificial Rock Outcrop to Teach Geology

ERIC Educational Resources Information Center

Totten, Iris

2005-01-01

Teaching Earth science without exposure to rock outcrops limits students depth of understanding of Earth's processes, limits the concept of scale from their spatial visualization imaging, and distorts their perception of geologic time (Totten 2003). Through a grant funded by the National Science Foundation, an artificial rock outcrop was…

Teaching Experimental Design to Elementary School Pupils in Greece

ERIC Educational Resources Information Center

Karampelas, Konstantinos

2016-01-01

This research is a study about the possibility to promote experimental design skills to elementary school pupils. Experimental design and the experiment process are foundational elements in current approaches to Science Teaching, as they provide learners with profound understanding about knowledge construction and science inquiry. The research was…

Reflection of light: a teaching and learning activity with primary school children

NASA Astrophysics Data System (ADS)

Varela, Paulo; Abreu, Cátia; Costa, Manuel F. M.

2014-08-01

Light and its properties is a subject that strongly attracts children from very early ages. Inquiry-based science teaching although addressed in the curricula of various countries and suggested by some international organizations, continues to have a very low expression in the teaching practices of the majority of primary school teachers and preschool educators. In this sense, we have organized several continuing training courses in order to encourage these education professionals to promote this approach to science teaching in the classroom, with the children. As part of this training process, teachers and educators put into practice, with their students, the didactic knowledge they have developed, in order to become aware of the virtues of an inquiry-based approach to children's learning. Through the implementation of the "Reflection of Light" activity, in this article, we intend to analyze the process of teaching and learning promoted in a 3rd grade class by one of the teachers participating in the training courses. The analysis of the process reveals that the teacher in training carried out a successful didactic integration of the inquiry-based science teaching approach recommended for children. In turn, the children also developed a good understanding of the contents of the activity explored in the classroom.

Use of information and communication technologies (ICT) in science education: The views and experiences of three high school teachers

NASA Astrophysics Data System (ADS)

Barreto-Marrero, Luz N.

This case study presents the experiences of three public school chemistry teachers in the transformation of their teaching processes with the use of ICT. The processes' characteristics are documented, what knowledge and skills were learned, and how it changed their organization, planning and teaching. D. H. Jonassen's (1999) ideas on learning strategies for the integration of ICT, from a constructivism and critical thinking perspective guide this study. MacFarlane and Sakellariou's (2002) ideas on the use of ICT in science teaching are also considered. The relationship between ICT, mind tools, learning strategies and teaching methods is studied. The information was collected by semi-structured interviews, classroom observations and document analysis. The results were analyzed according to Wolcott's qualitative analysis model (1994), along with the QRS NVivo (2002) computer program. The teachers learned to use several new ICT equipment and materials that facilitated their teaching and evaluation processes. Among these are the use of lab simulators, various software, CBL sensors, graphic calculators, electronic blackboards, and the Internet. They used teaching strategies for active, authentic, collaborative, constructive and reflective learning according to Jonassen. Their science teaching methods corresponds to the three types, according to MacFarlane and Sakellariou, which fosters scientific method skills and scientific reasoning for science literacy. The teachers, as facilitators and mediators, were inquirers of their students needs; investigators of their curricula, strategists as they organize their teaching skills and methods; experimenters with what they had learned; and collaborators as they fostered cooperative learning. Teachers' developed better lessons, lab exercises and assessment tools, such as rubrics, concept maps, comic strips, and others. They also affirmed that their students demonstrated more motivation, participation, collaboration and learning; developed scientific and technological skills; worked real situations in a collaborative way guided by science standards; and that parents participated in their children's learning. The conditions that facilitated these processes were the availability of technological resources, practical and continuous professional development, colleague communication and collaboration, the paradigmatic change towards constructivism with changes in assessment, school texts, curriculum and educational software, and a new generation of students and teachers open towards ICT, and pre-service teachers with technological skills.

Indigenous knowledge and languages in the teaching and learning of science: A focus on a rural primary school in Zimbabwe

NASA Astrophysics Data System (ADS)

Shizha, Edward

Teachers are known for their "gate-keeping" roles in schools, especially in the classroom setting. They process and decide what "knowledge" is "valid" and "appropriate" for students. They also decide when and how the knowledge should be mediated to students. Their gate-keeping role marginalizes some forms of knowledge while validating and legitimating others. This qualitative and constructivist-interpretive case study is an exploration and description of ten rural primary school teachers' experiences in teaching science using indigenous perspectives in Zimbabwe. The purpose of the study was to discover and describe, using qualitative inquiry, how teachers incorporate indigenous knowledge and languages in teaching science in a rural primary school in Zimbabwe. The study also sought to understand teachers' mediation techniques in the process of bridging the cultural gap between formal science and indigenous knowledge that students bring into the classroom from home. In this study, I elicited, from teachers, their understanding of the interconnectedness of indigenous knowledge and Western science. I employed qualitative inquiry to collect data from them in their natural working environment, the school and the classroom. Purposive sampling was utilized to select ten teachers who were observed teaching two science lessons each. All the lessons were captured using a video recorder, which facilitated the collection of as much information as possible from events occurring in the classroom. Later, semi-structured interviews/conversations were audio-recorded from the same teachers to elicit their insights and experiences in teaching science using indigenous perspectives and languages. Policy documents and science syllabuses were also perused for information on what teachers were expected to teach in science. Inductive analysis was employed to interpret findings that resulted in thick and in-depth narratives. The findings from these narratives revealed differences and similarities in teachers' views and experiences, and their fears and concerns in using indigenous knowledge and languages to teach science in Zimbabwe. The conclusions derived from these findings, though specific to the teachers in this study, gave rise to policy and pedagogical recommendations for increasing the use of indigenous knowledge and languages in the science curriculum in Zimbabwe.

Investigation the opinions of the primary science teachers toward practice of teaching and learning activities in science learning area

NASA Astrophysics Data System (ADS)

Chamnanwong, Pornpaka; Thathong, Kongsak

2018-01-01

In preparing a science lesson plan, teachers may deal with numerous difficulties. Having a deep understanding of their problems and their demands is extremely essential for the teachers in preparing themselves for the job. Moreover, it is also crucial for the stakeholders in planning suitable and in-need teachers' professional development programs, in school management, and in teaching aid. This study aimed to investigate the primary school science teachers' opinion toward practice of teaching and learning activities in science learning area. Target group was 292 primary science teachers who teach Grade 4 - 6 students in Khon Kaen Province, Thailand in the academic year of 2014. Data were collected using Questionnaire about Investigation the opinions of the primary science teachers toward practice of teaching and learning activities in science learning area. The questionnaires were consisted of closed questions scored on Likert scale and open-ended questions that invite a sentence response to cover from LS Process Ideas. Research findings were as follow. The primary science teachers' level of opinion toward teaching and learning science subject ranged from 3.19 - 3.93 (mean = 3.43) as "Moderate" level of practice. The primary school science teachers' needs to participate in a training workshop based on LS ranged from 3.66 - 4.22 (mean = 3.90) as "High" level. The result indicated that they were interested in attending a training course under the guidance of the Lesson Study by training on planning of management of science learning to solve teaching problems in science contents with the highest mean score 4.22. Open-ended questions questionnaire showed the needs of the implementation of the lesson plans to be actual classrooms, and supporting for learning Medias, innovations, and equipment for science experimentation.

Instructional decision making of high school science teachers

NASA Astrophysics Data System (ADS)

Carver, Jeffrey S.

The instructional decision-making processes of high school science teachers have not been well established in the literature. Several models for decision-making do exist in other teaching disciplines, business, computer game programming, nursing, and some fields of science. A model that incorporates differences in science teaching that is consistent with constructivist theory as opposed to conventional science teaching is useful in the current climate of standards-based instruction that includes an inquiry-based approach to teaching science. This study focuses on three aspects of the decision-making process. First, it defines what factors, both internal and external, influence high school science teacher decision-making. Second, those factors are analyzed further to determine what instructional decision-making processes are articulated or demonstrated by the participants. Third, by analyzing the types of decisions that are made in the classroom, the classroom learning environments established as a result of those instructional decisions are studied for similarities and differences between conventional and constructivist models. While the decision-making process for each of these teachers was not clearly articulated by the teachers themselves, the patterns that establish the process were clearly exhibited by the teachers. It was also clear that the classroom learning environments that were established were, at least in part, established as a result of the instructional decisions that were made in planning and implementation of instruction. Patterns of instructional decision-making were different for each teacher as a result of primary instructional goals that were different for each teacher. There were similarities between teachers who exhibited more constructivist epistemological tendencies as well as similarities between teachers who exhibited a more conventional epistemology. While the decisions that will result from these two camps may be different, the six step process for instructional decision-making that was established during this study shows promise for use in both situations.

Implementation of small group discussion as a teaching method in earth and space science subject

NASA Astrophysics Data System (ADS)

Aryani, N. P.; Supriyadi

2018-03-01

In Physics Department Universitas Negeri Semarang, Earth and Space Science subject is included in the curriculum of the third year of physics education students. There are various models of teaching earth and space science subject such as textbook method, lecturer, demonstrations, study tours, problem-solving method, etc. Lectures method is the most commonly used of teaching earth and space science subject. The disadvantage of this method is the lack of two ways interaction between lecturers and students. This research used small group discussion as a teaching method in Earth and Space science. The purpose of this study is to identify the conditions under which an efficient discussion may be initiated and maintained while students are investigating properties of earth and space science subjects. The results of this research show that there is an increase in student’s understanding of earth and space science subject proven through the evaluation results. In addition, during the learning process, student’s activeness also increase.

Improving Reading In Every Class. Abridged Edition.

ERIC Educational Resources Information Center

Thomas, Ellen Lamar; Robinson, H. Alan

This book suggests procedures not only for teaching the fundamental processes in reading but also for teaching reading in high school subject areas. Four chapters present methods for teaching vocabulary, comprehension, rate, and problem solving. Nine chapters are devoted to practical classroom methods for teaching mathematics, science, industrial…

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.

Secondary school science teaching, 1970--1992: Objectives as stated in periodical literature

NASA Astrophysics Data System (ADS)

Hemby, Brian Franklin

Purpose of the study. The major purpose of this study was to identify and classify objectives for teaching science in secondary schools in the United States during the period 1970--1992. These objectives were identified by objective statements in articles from selected professional periodicals. Procedure. The 1970--1992 period was divided into two subperiods on the basis of major historical events. Selected professional periodicals were searched for statements of objectives of secondary school science teaching. These statements were catalogued into Knowledge, Process, Attitude and Interest, or Cultural Awareness categories. The resulting data were classified within and across the two subperiods according to frequency of occurrence, category, authorship, and year. Findings. The major findings of this investigation included the following: (1) Authors in Higher Education produced the most articles, both research-oriented and nonresearch-oriented, and the most statements in each subperiod. Miscellaneous authors produced the least articles and statements. (2) Statements in the Process category were most frequent in the two subperiods. (3) The "most important" objectives for secondary school science teaching were Philosophical, sociological, and political aspects (from the Cultural Awareness category), Processes, skills, and techniques (from the Process category), and Major facts, principles, or fundamentals (from the Knowledge category). (4) Attitude and Interest objectives were consistently ranked as least important throughout the study. (5) The ranking of "most important" objectives in research-oriented articles generally agreed with the ranking in articles as a whole. Conclusions. Based on the findings of this investigation, the following conclusions were made: (1) The objectives for teaching secondary school science were influenced by historical events, especially the Vietnam War, the Cold War, the AIDS pandemic, and the publication of A Nation at Risk: The Imperative for Educational Reform. (2) Authors in Higher Education wrote more articles about the objectives for the teaching of secondary school science than those in the other categories. This was probably a reflection of the "publish or perish" environment in many colleges and universities. (3) The most important objectives for secondary school science teaching were Philosophical, sociological, and political aspects, Processes, skills, and techniques, and Major facts, principles, or fundamentals. The preponderance of these objectives is most likely a result of cultural and social unrest during this period. (4) The number of research-oriented articles, as a percentage of all articles, doubled from the first subperiod to the second subperiod. There appears to be a trend during the second subperiod toward more data-based articles.

Image Processing for Teaching: Transforming a Scientific Research Tool into an Educational Technology.

ERIC Educational Resources Information Center

Greenberg, Richard

1998-01-01

Describes the Image Processing for Teaching (IPT) project which provides digital image processing to excite students about science and mathematics as they use research-quality software on microcomputers. Provides information on IPT whose components of this dissemination project have been widespread teacher education, curriculum-based materials…

An Implementation Study: An Analysis of Elementary Student and Teacher Attitudes toward Science in Process-Approach vs. Traditional Science Classes.

ERIC Educational Resources Information Center

Kyle, William C.; And Others

In anticipation of House Bill 246 (now Texas Administrative Code Chapter 75) which requires an inquiry-based, process-approach to the teaching of science, the Richardson Independent School District established the Elementary Science Pilot Project and adopted the Science Curriculum Improvement Study (SCIS) as part of their new K-6 Science through…

Exploration on practice teaching reform of Photoelectric Image Processing course under applied transformation

NASA Astrophysics Data System (ADS)

Cao, Binfang; Li, Xiaoqin; Liu, Changqing; Li, Jianqi

2017-08-01

With the further applied transformation of local colleges, teachers are urgently needed to make corresponding changes in the teaching content and methods from different courses. The article discusses practice teaching reform of the Photoelectric Image Processing course in the Optoelectronic Information Science and Engineering major. The Digital Signal Processing (DSP） platform is introduced to the experimental teaching. It will mobilize and inspire students and also enhance their learning motivation and innovation through specific examples. The course via teaching practice process has become the most popular course among students, which will further drive students' enthusiasm and confidence to participate in all kinds of electronic competitions.

Teaching Bioinformatics in Concert

PubMed Central

Goodman, Anya L.; Dekhtyar, Alex

2014-01-01

Can biology students without programming skills solve problems that require computational solutions? They can if they learn to cooperate effectively with computer science students. The goal of the in-concert teaching approach is to introduce biology students to computational thinking by engaging them in collaborative projects structured around the software development process. Our approach emphasizes development of interdisciplinary communication and collaboration skills for both life science and computer science students. PMID:25411792

The REVEL Project: Long-Term Investment in K-12 Education at a RIDGE 2000 Integrated Study Site

NASA Astrophysics Data System (ADS)

Robigou, V.

2005-12-01

The REVEL Project has provided dozens of science teachers from throughout the U.S. an opportunity to explore the links between mid-ocean ridge processes and life along the RIDGE 2000 Juan de Fuca Ridge Integrated Study Site. In turn, these educators have facilitated deep-sea, research-based teaching and learning in hundreds of classrooms, contributed to mid-ocean ridge curriculum and programs development ranging from IMAX movies and museum exhibits to the R2K-SEAS (Student Experiment At Sea) program. In addition, the REVEL educators take on the mission to champion the importance of science in education and to bring ocean sciences into their local and regional communities. For the scientific community, research in an environment as large, dynamic and remote as the ocean intrinsically requires long-term investment to advance the understanding of the interactions between the processes shaping our planet. Similarly, research-based education requires long-term investment to incrementally change the way science is taught in schools, informal settings or even at home. It takes even longer to perceptibly measure the result of new teaching methods on students' learning and the impact of these methods on citizens' scientific literacy. Research-based education involving teachers practicing research in the field, and collaborating with scientists to experience and understand the process of science is still in its infancy - despite 20 years of NSF's efforts in teachers' professional development. This poster reports on strategies that the REVEL Project has designed over 9 years to help teachers that adopt research-based education transform their way of teaching in the classroom and bring cutting-edge, exciting science into schools through rigorous science learning. Their teaching approaches encourage students' interest in science, and engage students in the life-long skills of reasoning and decision making through the practice of science. Evaluation results of how the research-based teacher development program REVEL contributes to changing the way teachers view the scientific process once they have 'done' science and how the program supports teachers to change their teaching methods will be presented. The REVEL Project is funded by the National Science Foundation and receives additional support from the University of Washington and private donors. REVEL - Research and Education: Volcanoes-Exploration-Life.

The Cognitive Neuroscience of the Teacher-Student Interaction

ERIC Educational Resources Information Center

Battro, Antonio M.; Calero, Cecilia I.; Goldin, Andrea P.; Holper, Lisa; Pezzatti, Laura; Shalóm, Diego E.; Sigman, Mariano

2013-01-01

Pedagogy is the science and art of teaching. Each generation needs to explore the history, theory, and practice of the teacher-student interaction. Here we pave the path to develop a science that explores the cognitive and physiological processes involved in the human capacity to communicate knowledge through teaching. We review examples from our…

Snow as Field-Teaching Medium for Earth Science.

ERIC Educational Resources Information Center

Custer, Stephan Gregory

1991-01-01

Snow is a widely available earth-science teaching medium which can be used to explore scientific concepts in the field, either directly or by analogy. Snow can be considered a mineral, sediment, sedimentary rock, or metamorphic rock. Natural processes such as crystal growth, melting, sedimentation, and metamorphism can be studied in practical time…

Observing and Producing Sounds, Elementary School Science, Level Four, Teaching Manual.

ERIC Educational Resources Information Center

Hale, Helen E.

This pilot teaching unit is one of a series developed for use in elementary school science programs. This unit is designed to help children discover specific concepts which relate to sound, such as volume, pitch, and echo. The student activities employ important scientific processes, such as observation, communication, inference, classification,…

Teaching of Computer Science Topics Using Meta-Programming-Based GLOs and LEGO Robots

ERIC Educational Resources Information Center

Štuikys, Vytautas; Burbaite, Renata; Damaševicius, Robertas

2013-01-01

The paper's contribution is a methodology that integrates two educational technologies (GLO and LEGO robot) to teach Computer Science (CS) topics at the school level. We present the methodology as a framework of 5 components (pedagogical activities, technology driven processes, tools, knowledge transfer actors, and pedagogical outcomes) and…

Student Ideas & Inquiries: Investigating Friction in the Physics Classroom

ERIC Educational Resources Information Center

Campbell, Todd; Neilson, Drew

2009-01-01

Encouraging students to share their ideas, design mechanisms for testing ideas, and make conclusions about the validity of their ideas on the basis of evidence collected can enhance teaching about friction. The authors focus on teaching science content and science processes in a holistic manner so that students develop enduring understandings of…

The Design and Evaluation of Teaching Experiments in Computer Science.

ERIC Educational Resources Information Center

Forcheri, Paola; Molfino, Maria Teresa

1992-01-01

Describes a relational model that was developed to provide a framework for the design and evaluation of teaching experiments for the introduction of computer science in secondary schools in Italy. Teacher training is discussed, instructional materials are considered, and use of the model for the evaluation process is described. (eight references)…

The Utility of Inquiry-Based Exercises in Mexican Science Classrooms: Reports from a Professional Development Workshop for Science Teachers in Quintana Roo, Mexico

NASA Astrophysics Data System (ADS)

Racelis, A. E.; Brovold, A. A.

2010-12-01

The quality of science teaching is of growing importance in Mexico. Mexican students score well below the world mean in math and science. Although the government has recognized these deficiencies and has implemented new policies aimed to improve student achievement in the sciences, teachers are still encountering in-class barriers to effective teaching, especially in public colleges. This paper reports on the utility of inquiry based exercises in Mexican classrooms. In particular, it describes a two-day professional development workshop with science teachers at the Instituto Tecnologico Superior in Felipe Carrillo Puerto in the Mexican state of Quintana Roo. Felipe Carrillo Puerto is an indigenous municipality where a significant majority of the population speak Maya as their first language. This alone presents a unique barrier to teaching science in the municipality, but accompanied with other factors such as student apathy, insufficient prior training of both students and teachers, and pressure to deliver specific science curriculum, science teachers have formidable challenges for effective science teaching. The goals of the workshop were to (1) have a directed discussion regarding science as both content and process, (2) introduce inquiry based learning as one tool of teaching science, and (3) get teachers to think about how they can apply these techniques in their classes.

Transforming beliefs and practices: Elementary teacher candidates' development through shared authentic teaching and reflection experiences within an innovative science methods course

NASA Astrophysics Data System (ADS)

Naidoo, Kara

Elementary teachers are criticized for failing to incorporate meaningful science instruction in their classrooms or avoiding science instruction altogether. The lack of adequate science instruction in elementary schools is partially attributed to teacher candidates' anxiety, poor content and pedagogical preparation, and low science teaching self-efficacy. The central premise of this study was that many of these issues could be alleviated through course modifications designed to address these issues. The design tested and presented here provided prospective elementary educators' authentic science teaching experiences with elementary students in a low-stakes environment with the collaboration of peers and science teacher educators. The process of comprehensive reflection was developed for and tested in this study. Comprehensive reflection is individual and collective, written and set in dialogic discourse, focused on past and future behavior, and utilizes video recordings from shared teaching experiences. To test the central premise, an innovative science methods course was designed, implemented and evaluated using a one-group mixed-method design. The focus of the analysis was on changes in self-efficacy, identity and teaching practices as a function of authentic science teaching experiences and comprehensive reflection. The quantitative tools for analysis were t-tests and repeated-measures ANOVA on the Science Teaching Efficacy Belief Instrument-B (STEBI-B) and weekly self-rating on confidence as a learner and a teacher of science, respectively. The tools used to analyze qualitative data included thematic analysis and interpretative phenomenological analysis. In addition, theoretically grounded tools were developed and used in a case study to determine the ways one prospective educator's science teaching identity was influenced by experiences in the course. The innovative course structure led the development of teacher candidates' science teaching identity, supported science teaching self-efficacy development, positioned teachers as agents in their learning and development, provided the opportunity for teacher candidates to problematize teaching experiences to improve practice, developed teacher candidates who were able to critically question and create science curricula with the primary purpose of mediating student learning, and improved teacher candidates questioning skills and assistance with student performance in order to better mediate student learning. Implications for teacher education and future directions for research are discussed.

The development and validation of an instrument to measure preservice teachers' self-efficacy in regard to the teaching of science as inquiry

NASA Astrophysics Data System (ADS)

Dira-Smolleck, Lori

The purpose of this study was to develop, validate and establish the reliability of an instrument that measures preservice teachers' self-efficacy in regard to the teaching of science as inquiry. The instrument (TSI) is based upon the work of Bandura, Riggs, and Enochs & Riggs (1990). The study used Bandura's theoretical framework in that the instrument uses the self-efficacy construct to explore the beliefs of prospective elementary science teachers with regards to the teaching of science through inquiry: specifically, the two dimensions of self-efficacy beliefs defined by Bandura: personal self-efficacy and outcome expectancy. Self-efficacy in regard to the teaching of science as inquiry was measured through the use of a 69-item Likert scale instrument designed by the author of the study. A 13-step plan was designed and followed in the process of developing the instrument. Using the results from Chronbach Alpha and Analysis of Variance, a 69-item instrument was found to achieve the greatest balance across the construct validity, reliability and item balance with the Essential Elements of Classroom Inquiry content matrix. Based on the standardized development processes used and the associated evidence, the TSI appears to be a content and construct valid instrument, with high internal reliability for use with prospective elementary teachers to assess self-efficacy beliefs in regard to the teaching of science as inquiry. Implications for research, policy and practice are also discussed.

Using Process and Inqury to Teach Content: Projectile Motion and Graphing

ERIC Educational Resources Information Center

Rhea, Marilyn; Lucido, Patricia; Gregerson-Malm, Cheryl

2005-01-01

These series of lessons uses the process of student inquiry to teach the concepts of force and motion identified in the National Science Education Standards for grades 5-8. The lesson plan also uses technology as a teaching tool through the use of interactive Web sites. The lessons are built on the 5-E format and feature imbedded assessments.

Comparative Analysis of Western and Domestic Practice of Interactive Method Application in Teaching Social and Political Disciplines at the Universities

ERIC Educational Resources Information Center

Hladka, Halyna

2014-01-01

The comparative analysis of western and domestic practice of introducing active and interactive methods of studies in the process of teaching social science disciplines has been carried out. Features, realities, prospects and limitations in application of interactive methods of teaching in the process of implementing social-political science…

Formal logic rewrite system bachelor in teaching mathematical informatics

NASA Astrophysics Data System (ADS)

Habiballa, Hashim; Jendryscik, Radek

2017-07-01

The article presents capabilities of the formal rewrite logic system - Bachelor - for teaching theoretical computer science (mathematical informatics). The system Bachelor enables constructivist approach to teaching and therefore it may enhance the learning process in hard informatics essential disciplines. It brings not only detailed description of formal rewrite process but also it can demonstrate algorithmical principles for logic formulae manipulations.

Computer Aided Teaching of Digital Signal Processing.

ERIC Educational Resources Information Center

Castro, Ian P.

1990-01-01

Describes a microcomputer-based software package developed at the University of Surrey for teaching digital signal processing to undergraduate science and engineering students. Menu-driven software capabilities are explained, including demonstration of qualitative concepts and experimentation with quantitative data, and examples are given of…

Magnifying Students' Interest in Science

ERIC Educational Resources Information Center

Frazier, Wendy

2006-01-01

While some textbooks still teach students that there is one scientific process that must be rigidly followed, this stagnant portrayal of the process of science can lead students to think that science and scientists are quite boring. Through integrating visual art and microscopy, students learn about the creativity of scientists and begin to…

Using NASA Space Imaging Technology to Teach Earth and Sun Topics

NASA Astrophysics Data System (ADS)

Verner, E.; Bruhweiler, F. C.; Long, T.

2011-12-01

We teach an experimental college-level course, directed toward elementary education majors, emphasizing "hands-on" activities that can be easily applied to the elementary classroom. This course, Physics 240: "The Sun-Earth Connection" includes various ways to study selected topics in physics, earth science, and basic astronomy. Our lesson plans and EPO materials make extensive use of NASA imagery and cover topics about magnetism, the solar photospheric, chromospheric, coronal spectra, as well as earth science and climate. In addition we are developing and will cover topics on ecosystem structure, biomass and water on Earth. We strive to free the non-science undergraduate from the "fear of science" and replace it with the excitement of science such that these future teachers will carry this excitement to their future students. Hands-on experiments, computer simulations, analysis of real NASA data, and vigorous seminar discussions are blended in an inquiry-driven curriculum to instill confident understanding of basic physical science and modern, effective methods for teaching it. The course also demonstrates ways how scientific thinking and hands-on activities could be implemented in the classroom. We have designed this course to provide the non-science student a confident basic understanding of physical science and modern, effective methods for teaching it. Most of topics were selected using National Science Standards and National Mathematics Standards that are addressed in grades K-8. The course focuses on helping education majors: 1) Build knowledge of scientific concepts and processes; 2) Understand the measurable attributes of objects and the units and methods of measurements; 3) Conduct data analysis (collecting, organizing, presenting scientific data, and to predict the result); 4) Use hands-on approaches to teach science; 5) Be familiar with Internet science teaching resources. Here we share our experiences and challenges we face while teaching this course.

Image Processing: A State-of-the-Art Way to Learn Science.

ERIC Educational Resources Information Center

Raphael, Jacqueline; Greenberg, Richard

1995-01-01

Teachers participating in the Image Processing for Teaching Process, begun at the University of Arizona's Lunar and Planetary Laboratory in 1989, find this technology ideal for encouraging student discovery, promoting constructivist science or math experiences, and adapting in classrooms. Because image processing is not a computerized text, it…

A pragmatic conception of science: Implications for science teaching

NASA Astrophysics Data System (ADS)

Sessoms, Deidre Bates

In this dissertation, I examine various philosophical conceptions of the nature of science---its goals, methods and products---and link those views to how science is taught. While the review begins in the 1600s, the focus is primarily on logical positivism. The logical positivist view of science prevailed for much of the twentieth century and has greatly influenced how science is taught. The review section culminates with current conceptions of science from the fields of philosophy, sociology, feminist studies and radical studies of science. These various conceptions of the nature of science are linked to how science is currently taught, at the K--12 level and at the university. In particular, the logical positivist conception has influenced the teaching of science by emphasizing the products of science (factual knowledge and theories) over the processes of science (the social methods of knowledge production). As a result of viewing science as the logical positivists did, teachers primarily focus on science as unchanging factual knowledge, at the expense of examining the social and cultural aspects of scientific practices. I develop a pragmatic conception of the method of science as reflective thinking that we effectively use in our everyday lives. Linking that conception with the aims that John Dewey outlined for schools in a democratic society points the way towards certain goals and methods for teaching science. Therefore, I explore the type of science teaching that might result when viewing science as a pragmatic activity conducted in a democracy. Teaching of this sort would involve students in working together on shared problems that arise in the context of daily life. For science students at the university, this would include participating in and critiquing scientific research in active research laboratories. Implementing this view of science teaching might result in modifications in the practices and goals of science. Lastly, the experiences of a group of under-represented minority students who studied the sciences at the university are used to illustrate both the promises and the pitfalls of attempting to incorporate a pragmatic view of science into science teaching.

What is Science Teaching for?

ERIC Educational Resources Information Center

Biggins, David R.; Henderson, Ian

1978-01-01

Explains that understanding of science is vital to effective changes in science education. Discusses Thomas Kuhn's writings on the physical sciences and argues that Kuhn provides a better understanding of science education than do earlier models of science, although Kuhn's model fails to connect science with other social processes and interests.…

Implementation of Performance Assessment in STEM (Science, Technology, Engineering, Mathematics) Education to Detect Science Process Skill

NASA Astrophysics Data System (ADS)

Septiani, A.; Rustaman, N. Y.

2017-02-01

A descriptive study about the implementation of performance assessment in STEM based instruction was carried out to investigate the tenth grade of Vocational school students’ science process skills during the teaching learning processes. A number of tenth grade agriculture students was involved as research subjects selected through cluster random sampling technique (n=35). Performance assessment was planned on skills during the teaching learning process through observation and on product resulted from their engineering practice design. The procedure conducted in this study included thinking phase (identifying problem and sharing idea), designing phase, construction phase, and evaluation phase. Data was collected through the use of science process skills (SPS) test, observation sheet on student activity, as well as tasks and rubrics for performance assessment during the instruction. Research findings show that the implementation of performance assessment in STEM education in planting media could detect students science process skills better from the observation individually compared through SPS test. It was also found that the result of performance assessment was diverse when it was correlated to each indicator of SPS (strong and positive; weak and positive).

Yes! The Business Department Teaches Data Processing

ERIC Educational Resources Information Center

Nord, Daryl; Seymour, Tom

1978-01-01

After a brief discussion of the history and current status of business data processing versus computer science, this article focuses on the characteristics of a business data processing curriculum as compared to a computer science curriculum, including distinctions between the FORTRAN and COBOL programming languages. (SH)

Write Now! Using Reflective Writing beyond the Humanities and Social Sciences

ERIC Educational Resources Information Center

Cannady, Rachel E.; Gallo, Kasia Z.

2016-01-01

Writing is an important teaching and learning tool that fosters active and critical thinking. There are multiple pressures for disciplines outside the humanities and social sciences to integrate writing in their courses. The shift from teaching solely discipline-specific skills to including writing in a meaningful way can be a daunting process. An…

An Easy & Fun Way to Teach about How Science "Works": Popularizing Haack's Crossword-Puzzle Analogy

ERIC Educational Resources Information Center

Pavlova, Iglika V.; Lewis, Kayla C.

2013-01-01

Science is a complex process, and we must not teach our students overly simplified versions of "the" scientific method. We propose that students can uncover the complex realities of scientific thinking by exploring the similarities and differences between solving the familiar crossword puzzles and scientific "puzzles."…

Design and Application of Interactive Simulations in Problem-Solving in University-Level Physics Education

ERIC Educational Resources Information Center

Ceberio, Mikel; Almudí, José Manuel; Franco, Ángel

2016-01-01

In recent years, interactive computer simulations have been progressively integrated in the teaching of the sciences and have contributed significant improvements in the teaching-learning process. Practicing problem-solving is a key factor in science and engineering education. The aim of this study was to design simulation-based problem-solving…

Meaning Making through Multiple Modalities in a Biology Classroom: A Multimodal Semiotics Discourse Analysis

ERIC Educational Resources Information Center

Jaipal, Kamini

2010-01-01

The teaching of science is a complex process, involving the use of multiple modalities. This paper illustrates the potential of a multimodal semiotics discourse analysis framework to illuminate meaning-making possibilities during the teaching of a science concept. A multimodal semiotics analytical framework is developed and used to (1) analyze the…

The Content and Nature of Reflective Teaching: A Case of an Expert Middle School Science Teacher.

ERIC Educational Resources Information Center

Moallem, Mahnaz

1997-01-01

Explores the practical view of reflective teaching as it was revealed in the activities and thinking processes of an expert middle school science teacher. Discusses differences between types of reflection, importance of self-analysis by teachers, effect of social context on reflection, and having the opportunity to reflect. (RS)

Are Grades 10-12 Physical Sciences Teachers Equipped to Teach Physics?

ERIC Educational Resources Information Center

Basson, Ilsa; Kriek, Jeanne

2012-01-01

South African schools have been confronted with educational reform since the mid-nineties and the process is still continuing. The concomitant changes put a very high demand on physical sciences teachers and also have an impact on teacher behaviour. The purpose of this study was to probe whether teachers could be considered equipped to teach the…

Discovering Animal Ways, Elementary School Science, Level Three, Teaching Manual.

ERIC Educational Resources Information Center

Hale, Helen E.

This pilot teaching unit is one of a series developed for use in elementary school science programs. This unit is designed to promote children's natural curiosity and to help those who show a reluctance to work with animals to overcome some of their fears. The student activities employ important scientific processes, such as observation,…

Multiple Perspectives of Conceptual Change in Science and the Challenges Ahead

ERIC Educational Resources Information Center

Treagust, David F.; Duit, Reinders

2009-01-01

Conceptual change views of teaching and learning processes in science, and also in various other content domains, have played a significant role in research on teaching and learning as well as in instructional design since the late 1970s. Conceptual change can be interpreted from different individual perspectives or from multiple perspectives. In…

Challenges Faced by Pre-Service Science Teachers during the Teaching and Learning Process in Turkey

ERIC Educational Resources Information Center

Takaoglu, Zeynep Baskan

2017-01-01

Pre-service teachers' first experiences and ideas prior to application affect their teaching activities. For this reason, it is aimed to determine transferring the experiences and ideas of prospective science teachers before lesson activities and its development with lesson activities. The study was carried out with 29 third year prospective…

A Case Study: Teaching Engineering Concepts in Science. Research in Engineering and Technology Education

ERIC Educational Resources Information Center

Stricker, David R.

2010-01-01

This study was conducted to describe a teacher developed high school engineering course, to identify teaching strategies used in the process of delivering math and science literacy through this course, to identify challenges and constraints that occurred during its development and delivery, and to describe the strategies that were used to overcome…

[The educational context to train health care professionals. A qualitative approach].

PubMed

Matus B, Olga; Ortega B, Javiera; Parra P, Paula; Ortiz M, Liliana; Márquez U, Carolina; Stotz R, Melita; Fasce H, Eduardo

2017-07-01

There are differences in the educational context in Health Sciences, between clinical and non-clinical teachers. Therefore, the didactic and reflexive peculiarities of both educational scenarios should be analyzed. To describe the conditions of the educational context in Health Sciences for the practice of the teaching role in a Chilean university. Qualitative study, performed according to Grounded Theory of Strauss and Corbin. Thirty one teachers from six health sciences programs were selected according to Patton's maximum variation criterion and contacted personally, after an informed consent process. Semi-structured interviews and focus group were performed, analyzed by open coding, using the constant comparison method, with the Atlas-ti 7.5.2 software. Six conditions of the educational context that can support the teaching role in these careers emerged. Namely, a clinical field suited for patient attention and teaching, classrooms designed for the new educational models, number of students in the classrooms and clinical settings, insertion programs for teachers' training, teachers' coordination and economic resources of the program. Health Sciences programs are developed in a complex educational context, having to articulate diverse elements to train professionals. Therefore, it is fundamental to understand the conditions of the educational context that can favor the practice of the teaching role, thus generating improvements in teaching-learning process.

Research Methodologies Explored for a Paradigm Shift in University Teaching.

ERIC Educational Resources Information Center

Venter, I. M.; Blignaut, R. J.; Stoltz, D.

2001-01-01

Innovative teaching methods such as collaborative learning, teamwork, and mind maps were introduced to teach computer science and statistics courses at a South African university. Soft systems methodology was adapted and used to manage the research process of evaluating the effectiveness of the teaching methods. This research method provided proof…

One foot on the dock and one foot on the boat: Differences among preservice science teachers' interpretations of field-based science methods in culturally diverse contexts

NASA Astrophysics Data System (ADS)

Yerrick, Randy K.; Hoving, Timothy J.

2003-05-01

To support lasting change in science classrooms, efforts must be made to assist teachers in understanding the outcomes of their pedagogical choices. The process of reflection is not limited to experienced teachers' experiences, though we must recognize that preservice teachers do not draw upon the same vast repertoire and knowledge. The purpose of this study was to investigate preservice science teachers' beliefs about science teaching and learning through reflections on their own teaching with lower track science students. Using the major data sources of videotapes of teaching, stimulated recall interviews, and student journals we studied preservice teachers enrolled in a field based secondary science methods course working predominantly with rural Black children. Initially, preservice science teachers demonstrated similar practices, made similar inferences about teaching and learning, and relied upon similar domains of knowledge to gauge their teaching. By the end of the study, two discrete categories of preservice teachers emerged: (1) those who demonstrated an ability to reflect on and revise their practices and engage in the production of new teacher knowledge and (2) those who seemingly deflected efforts to shift their thinking and instead reproduced their own educational experience with a new student population. Implications for teacher education and research are discussed.

The bench vs. the blackboard: learning to teach during graduate school.

PubMed

Ciaccia, Laura

2011-09-01

Many science, technology, engineering, and mathematics (STEM) graduate students travel through the academic career pipeline without ever learning how to teach effectively, an oversight that negatively affects the quality of undergraduate science education and cheats trainees of valuable professional development. This article argues that all STEM graduate students and postdoctoral fellows should undergo training in teaching to strengthen their resumes, polish their oral presentation skills, and improve STEM teaching at the undergraduate level. Though this may seem like a large undertaking, the author outlines a three-step process that allows busy scientists to fit pedagogical training into their research schedules in order to make a significant investment both in their academic career and in the continuing improvement of science education. Copyright © 2011.

Teaching students ideas-about-science: Five dimensions of effective practice

NASA Astrophysics Data System (ADS)

Bartholomew, Hannah; Osborne, Jonathan; Ratcliffe, Mary

2004-09-01

In this paper, we report work undertaken with a group of 11 UK teachers over a period of a year to teach aspects of the nature of science, its process, and its practices. The teachers, who taught science in a mix of elementary, junior high, and high schools, were asked to teach a set of ideas-about-scienc for which consensual support had been established using a Delphi study in the first phase of the project. Data were collected through field notes, videos of the teachers' lessons, teachers' reflective diaries, and instruments that measured their understanding of the nature of science and their views on the role and value of discussion in the classroom. In this paper, drawing on a sample of the data we explore the factors that afforded or inhibited the teachers' pedagogic performance in this domain. Using these data, we argue that there are five critical dimensions that distinguish and determine a teacher's ability to teach effectively about science. Whilst these dimensions are neither mutually independent nor equally important, they serve as a valuable analytical tool for evaluating and explaining the success, or otherwise, that individual teachers of science have when confronted with teaching aspects about science. In addition, we argue that they are an important means of identifying salient aspects of pedagogy for initial and in-service training of science teachers for curricula that incorporate elements of ideas-about-science

Learning to Teach Elementary Science Through Iterative Cycles of Enactment in Culturally and Linguistically Diverse Contexts

NASA Astrophysics Data System (ADS)

Bottoms, SueAnn I.; Ciechanowski, Kathryn M.; Hartman, Brian

2015-12-01

Iterative cycles of enactment embedded in culturally and linguistically diverse contexts provide rich opportunities for preservice teachers (PSTs) to enact core practices of science. This study is situated in the larger Families Involved in Sociocultural Teaching and Science, Technology, Engineering and Mathematics (FIESTAS) project, which weaves together cycles of enactment, core practices in science education and culturally relevant pedagogies. The theoretical foundation draws upon situated learning theory and communities of practice. Using video analysis by PSTs and course artifacts, the authors studied how the iterative process of these cycles guided PSTs development as teachers of elementary science. Findings demonstrate how PSTs were drawing on resources to inform practice, purposefully noticing their practice, renegotiating their roles in teaching, and reconsidering "professional blindness" through cultural practice.

Mentor Advice Giving in an Alternative Certification Program for Secondary Science Teaching: Opportunities and Roadblocks in Developing a Knowledge Base for Teaching

NASA Astrophysics Data System (ADS)

Upson Bradbury, Leslie; Koballa, Thomas R., Jr.

2007-12-01

Mentoring is often an important component of alternative certification programs, yet little is known about what novices learn about science teaching through mentoring relationships. This study investigated the advice given by two mentor science teachers to their protégés. Findings indicate that mentors gave more advice related to general pedagogical knowledge than science-specific pedagogical content knowledge. Specifically, there was little to no advice related to the topics of inquiry, the nature of science, or the development of scientific literacy. Implications call for an increase in communication between university teacher education programs and school-based mentors, the development of benchmarks to help guide mentor-protégé interactions, and the importance of a multiyear induction process.

Science teachers' worldviews: A way to understand beliefs and practices

NASA Astrophysics Data System (ADS)

Yalaki, Yalcin

Understanding science teachers' beliefs is important for science teacher educators, because such understanding is a prerequisite for promoting change within the framework of educational reform. The worldview model developed by Graves (1981) and Beck and Cowan (1996) provides a holistic approach to understanding teachers' beliefs and values and it also provides a framework for understanding how people's worldviews change. In this study, worldviews of four science teachers were investigated within the framework of Beck and Cowan's model. Two of these teachers were high school science teachers, while the other two were middle school science teachers. One of the teachers held National Board of Professional Teaching Certification and she had 18 years of teaching experience. Another teacher was a relatively new teacher with three years of teaching experience. The third teacher had nine years of teaching experience, but when this study was conducted, it was her first year of teaching science. The other teacher had 26 years of experience with certification in all science areas. During this study, interpretative qualitative methods of data collection and analysis were used which included interviews, observations, and the use of a survey developed by Beck and Cowan (2000) called the Values Test. The results show that differing values and experiences among science teachers leads to different strategies for making sense of science teaching. The assertion that the worldview perspective provided by Beck and Cowan is a useful tool in understanding teachers' beliefs and values is made in the conclusions. Teacher educators can utilize this tool in research about teacher beliefs, in promoting change for reform, or in developing curriculum for teacher education programs. Teachers can utilize it in self-reflective practices to better understand their own beliefs, their context, and their students and ultimately improve the teaching and learning process they engage in.

Achieving a coherent curriculum in second grade: Science as the organizer

NASA Astrophysics Data System (ADS)

Park Rogers, Meredith A.

The purpose of this study was to examine how a team of four second grade teachers used their approach to teaching science as a means for designing and implementing a coherent curriculum. Within this study, curriculum coherency refers to making logical instructional connections that are both visible and explicit for students. A teacher using a common teaching strategy or critical thinking skills in such a way that the commonalities between subject areas are clearly demonstrated to students is one example of curriculum coherency. The research framework guiding this study was phenomenology; I used a case study method for data analysis. The primary data source was field notes gathered during 10 weeks of classroom observations. Secondary data sources included observations of team meetings, two sets of interviews with each of the four teachers, an interview with the school principal, and artifacts used and developed by the teachers. An analysis of the data led me to interpret the following findings: (1) the teachers viewed science as a tool to motivate their students to learn and believed in teaching science through an inquiry-based approach; (2) they described science inquiry as a process of thinking organized around questions, and saw their teaching role as shifting between guided and open classroom inquiry; (3) they taught all subjects using an inquiry-based approach, emphasized the process skills associated with doing scientific inquiry, and consistently used the language of the process skills throughout their instruction of all disciplines; (4) their team's collaborative approach played a significant role in achieving their vision of a coherent curriculum; the successfulness of their collaboration relied on the unique contributions of each member and her commitment to professional development. This study demonstrates how an inquiry-based science curriculum can provide educators with an effective model for designing and implementing a coherent curriculum. Furthermore, the findings have implications for elementary preservice and inservice programs with respect to using science teaching as a foundation for developing curriculum coherency.

The distinctiveness and effectiveness of science teaching in the Malaysian `Smart school'

NASA Astrophysics Data System (ADS)

Tek Ong, Eng; Ruthven, Kenneth

2010-04-01

A recent reform initiative in the Malaysian educational system has sought to develop 'Smart schools', intended to better prepare students for adult life in a developing economy and to increase the flow of young people prepared for scientific and technological careers. The study reported in this paper examined lower-secondary science teaching, comparing two Smart schools officially judged to be successfully implementing the reform, with two neighbouring mainstream schools. Through analysis of classroom observation, supported by teacher interview and student report, the distinctive features of science teaching in the Smart schools were found to be use of ICT-based resources and of student-centred approaches, often intertwined to provide extended support for learning; accompanied by a near absence of the note giving and copying prevalent in the mainstream schools. Through analysis of measures of student attitude to science, science process skills and general science attainment, science teaching in Smart schools was found to be relatively effective overall. However, while the positive attitude effect was general, both academic effects were much weaker amongst students who had been of lower attainment on entry to secondary school.

Negotiating a space to teach science: Stories of community conversation and personal process in a school reform effort

NASA Astrophysics Data System (ADS)

Barker, Heidi Bulmahn

This is a qualitative study about elementary teachers in a school district who are involved in a science curricular reform effort. The teachers attempted to move from textbook-based science teaching to a more inquiry and process-based approach. I specifically explore how teachers negotiate their place within changes in pedagogy and curriculum and how this negotiation is enacted in the space of a teacher's own classroom. The account developed here is based on a two-year study. Presented are descriptions, analysis, and my own interpretations of teaching and conversations as teachers spoke with one another, with me and with children as they tried out the new science curriculum and pedagogies. I conclude that people interested in school reform should consider the following ideas as they work with teachers to implement pedagogical and curricular changes. (1) Teaching is a personal/individual process that takes place within a larger community. This leads to a complex context for working and making decisions. (2) Despite feeling that changes were imposed, teachers make the curriculum work for the needs in their own classroom. (3) Change is a process that teachers view as part of their work. Teachers expect that they will adapt curriculum and make it work for the children in their classes and for themselves. I suggest that those who advocate various reform efforts in teaching and curriculum should consider the spaces that teachers create as they become a part of the change process including intellectual, physical, and emotional ones. In my stories I assert: teachers create their own spaces for making changes in pedagogy and curriculum and they do this as a complex negotiation of external demands (such as their community, relationships with colleagues, and state standards) and their own values and interpretations. The ways that teachers implement the change process is a personal one, and because it is a personal process, school reform efforts largely depend on the teachers making these efforts a part of their own thinking, teaching, and learning.

Teaching Science Is a Sacred Act

ERIC Educational Resources Information Center

Madden, Lauren

2018-01-01

Science, as enterprise and epistemology, has been politicized. This essay recounts one science teacher educator's perspective and experience on this politicization of science and describes the necessity for preservice and practicing teachers to understand the nature and process of science. The role of teachers in advocating for science is clearly…

Factors Influencing Science Content Accuracy in Elementary Inquiry Science Lessons

ERIC Educational Resources Information Center

Nowicki, Barbara L.; Sullivan-Watts, Barbara; Shim, Minsuk K.; Young, Betty; Pockalny, Robert

2013-01-01

Elementary teachers face increasing demands to engage children in authentic science process and argument while simultaneously preparing them with knowledge of science facts, vocabulary, and concepts. This reform is particularly challenging due to concerns that elementary teachers lack adequate science background to teach science accurately. This…

An examination of the relationship among science teaching actions, beliefs, and knowledge of the nature of science

NASA Astrophysics Data System (ADS)

Chun, Sajin

Scholars in science education advocate curriculum and instruction practices that reflect an understanding of the nature of science. This aspect of school science is an important component of scientific literacy, a primary goal of science education. Considering teaching as a thoughtful profession, there has been a growing research interest on the issue of the consistency between teacher beliefs and actions. Yet, the self-evident assumption that teachers' beliefs about the nature of science will impact on their classroom teaching actions has not been justified. The purpose of this study was to examine the relationship between science teaching actions and beliefs about the nature of science. Defining teacher beliefs as a broad construct, the researcher tried to examine not only teacher's cognitive understanding about the nature of science but also teachers' affect as well as actions with regard to the nature of science. Guiding research questions were as follows: (a) what are the teachers' beliefs about the nature of science; (b) how do the teachers, pedagogical actions reflect their beliefs about the nature of science; and (c) what are the other referent beliefs that mediate the teachers, pedagogical actions within a local school culture. The methodology of this study was an interpretive, qualitative approach that included multiple sources of data, interviews, classroom observations, and instructional materials. Six science teachers from a secondary school located in a rural area of the southeastern US were chosen by convenience. The cross-case study and the grounded theory study designs were adopted as the data analysis process. The constant comparative analysis method was used to generate the emerging themes for this study. This study revealed a gap between these teachers' personal beliefs of the nature of science and the concepts of the nature of science suggested by many researchers. These teachers' personal beliefs about the nature of science have been constructed based on their science teaching and learning experiences and as a result are closely related to their belief about the nature of school science. These teachers teaching actions reflected their own personal beliefs about the nature of science within the interaction of multiple referent beliefs with relation to science teaching and learning.

A meta-analysis of instructional systems applied in science teaching

NASA Astrophysics Data System (ADS)

Willett, John B.; Yamashita, June J. M.; Anderson, Ronald D.

This article is a report of a meta-analysis on the question: What are the effects of different instructional systems used in science teaching? The studies utilized in this meta-analysis were identified by a process that included a systematic screening of all dissertations completed in the field of science education since 1950, an ERIC search of the literature, a systematic screening of selected research journals, and the standard procedure of identifying potentially relevant studies through examination of the bibliographies of the studies reviewed. In all, the 130 studies coded gave rise to 341 effect sizes. The mean effect size produced over all systems was 0.10 with a standard deviation of 0.41, indicating that, on the average, an innovative teaching system in this sample produced one-tenth of a standard deviation better performance than traditional science teaching. Particular kinds of teaching systems, however, produced results that varied from this overall result. Mean effect sizes were also computed by year of publication, form of publication, grade level, and subject matter.

Original Research and Peer Review Using Web-Based Collaborative Tools by College Students

ERIC Educational Resources Information Center

Cakir, Mustafa; Carlsen, William S.

2007-01-01

The Environmental Inquiry program supports inquiry based, student-centered science teaching on selected topics in the environmental sciences. Many teachers are unfamiliar with both the underlying science of toxicology, and the process and importance of peer review in scientific method. The protocol and peer review process was tested with college…

Changing Perceptions of Science in Undergraduate Students: A Mixed Methods Case Study

ERIC Educational Resources Information Center

Larson-Miller, Cindy S.

2011-01-01

The purpose of this bounded single-case study was to explore the understanding of the nature and process of science for undergraduate students at the University of Nebraska-Lincoln (UNL). The study investigated one professor's methodology to explicitly teach undergraduate students about the nature and process of science, and documented their…

The effectiveness of a long-term professional development program on teachers' self-efficacy, attitudes, skills, and knowledge using a thematic learning approach

NASA Astrophysics Data System (ADS)

Tinnin, Richard Kinna

The purpose of this research study was to determine the effectiveness of a long-term professional development program on self-efficacy beliefs, science attitudes, skills, and knowledge of elementary teachers. The target school was located in the Lower Rio Grande Valley of Texas. Major elements of the study included the use of thematic science strands, use of the 5E constructivist-oriented instructional model, a focus on the interdisciplinary nature of the science process skills, and guided, inquiry-based learning experiences. These elements mirror the principles identified as being essential components of effective professional development for mathematics, and science education (Fullan, 1985; Sparks & Loucks-Horsley, 1990; Loucks-Horsley, 1997). The research team was actively involved with the participants for a total of 30 days at their school over the 24 months of the study. During each training, the research team modeled the 5E constructivist-oriented instructional strategy, and the interdisciplinary nature of the science process skills, set up a wide variety of activity centers, and provided the teachers with opportunities to improve their attitudes, skills, and knowledge of the science content, and teaching strategies. The 15 participants completed pre-, post-, and post-post-Leadership Team Surreys. Quantitative data analyses of gain scores measuring level of confidence to teach Marine and Earth Science, content knowledge, and teaching strategies were significant, p < .001. The participants' efficacy-beliefs and outcome expectancy were assessed with a pre- and posttest Science Teacher Self-Efficacy Beliefs Instrument that measures both elements. Self-efficacy beliefs were significant at p < .001. Outcome expectancies were not significant, p > .05. Qualitative analysis of reflective journal comments, classroom observations, and the participants understanding, and use of science process skills across the curriculum supported the quantitative data results. The data demonstrate significant improvement in the self-efficacy beliefs, attitudes, skills, and knowledge toward teaching science of the Pre-Kindergarten--2nd -grade teachers who participated in this long-term professional development study.

Teaching science as argument: Prospective elementary teachers' knowledge

NASA Astrophysics Data System (ADS)

Barreto-Espino, Reizelie

For the past two decades there has been increasing emphasis on argumentation in school science. In 2007, the National Research Council published a synthesis report that emphasizes the centrality of constructing, evaluating, and using scientific explanations. Participating in argumentation is seen as fundamental to children's science learning experiences. These new expectations increase challenges for elementary teachers since their understanding of and experiences with science are overwhelmingly inconsistent with teaching science as argument. These challenges are further amplified when dealing with prospective elementary teachers. The current study was guided by the following research questions: (1) What are the ways in which preservice elementary teachers appropriate components of "teaching science as argument" during their student teaching experience? (2) To what extent do components from prospective elementary teachers' reflections influence planning for science teaching? (3) What elements from the context influence preservice elementary teachers' attention to teaching science as argument? This study followed a multi-participant case study approach and analyses were informed by grounded theory. Three participants were selected from a larger cohort of prospective elementary teachers enrolled in an innovative Elementary Professional Development School (PDS) partnership at a large Northeast University. Cross-case analysis allowed for the development of five key assertions: (1) The presence of opportunities for interacting with phenomena and collecting first hand data helped participants increase their emphasis on evidence-based explanations. (2) Participants viewed science talks as an essential mechanism for engaging students in the construction of evidence-based explanations and as being fundamental to meaning-making. (3) Participants demonstrated attention to scientific subject matter during instruction rather than merely focusing on activities and/or inquiry processes. (4) Scaffolded protocols positively influenced participants' attention to having students construct evidence-based explanations during science planning and teaching. (5) Teachers' beliefs about children's science capabilities influence their attention to and adoption of practices associated with teaching science as argument. Findings are discussed in terms of their implications for teacher education, such as the use of coherent conceptual frameworks to guide coursework and field experiences and the development of video-based cases that represent "images of the possible" associated with challenging reform-oriented teaching practices.

Common Earth Science Misconceptions in Science Teaching

ERIC Educational Resources Information Center

King, Chris

2012-01-01

A survey of the Earth science content of science textbooks found a wide range of misconceptions. These are discussed in this article with reference to the published literature on Earth science misconceptions. Most misconceptions occurred in the "sedimentary rocks and processes" and "Earth's structure and plate tectonics"…

The Ascent of the Concrete: Grammatical Reification in Science Teaching Exchanges and Episodes

ERIC Educational Resources Information Center

Lim, Eunsook; Kellogg, David

2008-01-01

Foreign language learning and science teaching can both be seen as examples of Davydov's "ascent to the concrete", because they begin from abstract definitions and proceed in the direction of concrete use. The microgenetic lessons that enable these ontogenetic processes can also be seen as examples of "ascent of the concrete" because they involve,…

Exploring Features of Integrative Teaching through a Microanalysis of Connection-Making Processes in a Health Sciences Curriculum

ERIC Educational Resources Information Center

Hooper, Barbara R.; Greene, David; Sample, Pat L.

2014-01-01

The interconnected nature of knowledge in the health sciences is not always reflected in how curricula, courses, and learning activities are designed. Thus have scholars advocated for more explicit attention to connection-making, or integration, in teaching and learning. However, conceptual and empirical work to guide such efforts is limited. This…

Focus issue: teaching tools and learning opportunities.

PubMed

Gough, Nancy R

2010-04-27

Science Signaling provides authoring experience for students and resources for educators. Students experience the writing and revision process involved in authoring short commentary articles that are published in the Journal Club section. By publishing peer-reviewed teaching materials, Science Signaling provides instructors with feedback that improves their materials and an outlet to share their tips and techniques and digital resources with other teachers.

Analysing the Problems of Science Teachers That They Encounter While Teaching Physics Education

ERIC Educational Resources Information Center

Demir, Cihat; Sincar, Burhan; Çelik, Ridvan

2015-01-01

Even though physical science is very important in our daily lives, it is insufficiently understood by students. In order for students to get a better physical education, the teachers who have given physics lesson should first eliminated the problems that they face during the teaching process. The aim of this survey is to specify the matters…

The History and Philosophy of Science in Physics Teaching: A Research Synthesis of Didactic Interventions

ERIC Educational Resources Information Center

Teixeira, Elder Sales; Greca, Ileana Maria; Freire, Olival, Jr.

2012-01-01

This work is a systematic review of studies that investigate teaching experiences applying History and Philosophy of Science (HPS) in physics classrooms, with the aim of obtaining critical and reliable information on this subject. After a careful process of selection and exclusion of studies compiled from a variety of databases, an in-depth review…

Using Mental Imagery Processes for Teaching and Research in Mathematics and Computer Science

ERIC Educational Resources Information Center

Arnoux, Pierre; Finkel, Alain

2010-01-01

The role of mental representations in mathematics and computer science (for teaching or research) is often downplayed or even completely ignored. Using an ongoing work on the subject, we argue for a more systematic study and use of mental representations, to get an intuition of mathematical concepts, and also to understand and build proofs. We…

Getting started in the scholarship of teaching and learning: a "how to" guide for science academics.

PubMed

Rowland, Susan L; Myatt, Paula M

2014-01-01

SoTL stands for the Scholarship of Teaching and Learning. The acronym, said "sottle" or "sote-all," describes research that involves rigorous examination of teaching and learning by faculty who are actively involved in the educational process. The number of natural-science faculty engaged in SoTL is increasing, and their important work has broad implications for the measurement and improvement of college teaching and learning outcomes. The data show, however, that many faculty who conduct SoTL projects in science departments begin their education research careers with no training in SoTL research methodologies, and find they are working alone, with few colleagues who can nurture (or even understand) their efforts. In this article we provide a guide intended to help natural-science faculty initiate SoTL projects while they negotiate the mechanics and politics of developing and maintaining a SoTL research program in a science department. © 2013 by the American Association for the Study of Liver Diseases.

Design and practice of a novel experiment teaching system based on the optoelectric information chain

NASA Astrophysics Data System (ADS)

Luo, Yunhan; Chen, Zhe; Li, Yan; Di, Hongwei; Li, Zhen; Bai, Chunhe; Tang, Jieyuan; Zhang, Jun; Yi, Xiao

2017-08-01

The course of optoelectronic information science is a diverse science and technology with wide range of disciplines, intensive technology, and strong applicability. As a result, the practice teaching in undergraduate education occupies the strategic important position, which is a key link in the process of innovative talents cultivation of photoelectric information, plays a unique and irreplaceable role by any other teaching methods. In order to meet the requirements of national innovative talents of photoelectric information, the complete teaching reform strategy was put forward by combining with the higher education policy and development strategy of teaching and professional characteristics. The goal of the experimental teaching reform is to cultivate innovative talents and to construct the photoelectric information industry chain system of experimental teaching platform and cultivating creative personnel. The key clue is the photoelectric information surrounding photoelectric information, like "generation - modulation - transformation - detection - procession" which will be realized by resource integration and complementary among cross disciplines, and focusing on scientific research support for the teaching and the combination of professional knowledge and practical application. This teaching reform scheme presented in the paper will provide very good demonstration effect in the curriculum reform of other photoelectric information related courses.

The Feasibility of Applying PBL Teaching Method to Surgery Teaching of Chinese Medicine

ERIC Educational Resources Information Center

Tang, Qianli; Yu, Yuan; Jiang, Qiuyan; Zhang, Li; Wang, Qingjian; Huang, Mingwei

2008-01-01

The traditional classroom teaching mode is based on the content of the subject, takes the teacher as the center and gives priority to classroom instruction. While PBL (Problem Based Learning) teaching method breaches the traditional mode, combining the basic science with clinical practice and covering the process from discussion to self-study to…

Girls on Ice: Using Immersion to Teach Fluency in Science

NASA Astrophysics Data System (ADS)

Pettit, E. C.; Mortenson, C.; Stiles, K.; Coryell-Martin, M.; Long, L.

2010-12-01

Young women choose not to pursue science careers for several reasons; two important ones are that they more often lack the confidence in their own ability to succeed or they perceive many science jobs as isolated (working alone in a lab) or lacking in altruistic values of helping other people or communities. We developed an immersion-science program, Girls on Ice, to provide young women with strong, female role models; with an opportunity to see what a career in the Earth sciences is like; with one-on-one interactions with scientists; with facilitated discussions on the value of Earth science in societal issues such as climate change; and with challenges that will build their self-confidence in multiple ways. Girls on Ice is field-based program for teenage young women with the theme of Glaciers, Climate, and the Alpine Landscape. The concepts we cover range from glacier dynamics to alpine plant ecology to mountain weather. The educational goals are 1. to increase young women's self-efficacy and interest in pursuing science as a career, 2. to create life-long advocates for the scientific process and its role in public policy 3. to teach critical thinking skills which will be important for all of their future pursuits 4. to enhance their leadership self-confidence so that they have a higher likelihood of becoming community leaders in the future. The educational philosophy of Girls on Ice consists of three core values: that teaching the whole process of science gives students ownership of the science; that teaching to the whole student puts the science in context; and that diversity inspires new ideas, new approaches, and better science in the end. We use a field-based immersion format -- the science equivalent of language-immersion course - in order to achieve the goals listed above in a setting that emphasizes this educational philosophy. The immersion-style course creates a deep connection between science and daily life for these young women. Combined with climate change content, this style of teaching guides these young women toward becoming scientifically-literate leaders and decision makers and strengthens the connection between scientists and decision makers, educators, and communicators in regard to modern society-science issues.

Deepening Inquiry: What Processes of Making Music Can Teach Us about Creativity and Ontology for Inquiry Based Science Education

ERIC Educational Resources Information Center

Gershon, Walter S.; Oded, Ben-Horin

2014-01-01

Drawing from their respective work at the intersection of music and science, the coauthors argue that engaging in processes of making music can help students more deeply engage in the kinds of creativity associated with inquiry based science education (IBSE) and scientists better convey their ideas to others. Of equal importance, the processes of…

Method and Mythology.

ERIC Educational Resources Information Center

Giovanazzi, Anthony

1993-01-01

Overviews the teaching of languages, particularly English, over a long time span. For centuries, the creative process of language learning, as opposed to the formalized pattern of language teaching, was largely ignored. It is suggested that there is nothing doctrinal about teaching methods, language learning will never be an exact science, and…

The effects of a professional development geoscience education institute upon secondary school science teachers in Puerto Rico

NASA Astrophysics Data System (ADS)

Llerandi Roman, Pablo Antonio

The geographic and geologic settings of Puerto Rico served as the context to develop a mixed methods investigation on: (1) the effects of a five-day long constructivist and field-based earth science education professional development institute upon 26 secondary school science teachers' earth science conceptual knowledge, perceptions of fieldwork, and beliefs about teaching earth science; and (2) the implementation of participants' newly acquired knowledge and experience in their science lessons at school. Qualitative data included questionnaires, semi-structured interviews, reflective journals, pre-post concept maps, and pre-post lesson plans. The Geoscience Concept Inventory and the Science Outdoor Learning Environment Inventory were translated into Spanish and culturally validated to collect quantitative data. Data was analyzed through a constructivist grounded theory methodology, descriptive statistics, and non-parametric methods. Participants came to the institute with serious deficiencies in earth science conceptual understanding, negative earth science teaching perspectives, and inadequate earth science teaching methodologies. The institute helped participants to improve their understanding of earth science concepts, content, and processes mostly related to the study of rocks, the Earth's structure, plate tectonics, maps, and the geology of Puerto Rico. Participants also improved their earth science teaching beliefs, perceptions on field-based education, and reflected on their environmental awareness and social responsibility. Participants greatly benefited from the field-based learning environment, inquiry-based teaching approaches modeled, the attention given to their affective domain, and reflections on their teaching practice as part of the institute's activities. The constructivist learning environment and the institute's contextualized and meaningful learning conceptual model were effective in generating interest and confidence in earth science teaching. Some participants successfully integrated inquiry-based lessons on the nature of science and earth science at their schools, but were unsuccessful in integrating field trips. The lack of teacher education programs and the inadequacy of earth science conceptual and pedagogical understanding held by in-service teachers are the main barriers for effective earth science teaching in Puerto Rico. This study established a foundation for future earth science education projects for Latino teachers. Additionally, as a result of this investigation various recommendations were made to effectively implement earth science teacher education programs in Puerto Rico and internationally.

Tracking the Footprints Puzzle: The Problematic Persistence of Science-as-Process in Teaching the Nature and Culture of Science

ERIC Educational Resources Information Center

Ault, Charles R., Jr.; Dodick, Jeff

2010-01-01

For many decades, science educators have asked, "In what ways should learning the content of traditional subjects serve as the means to more general ends, such as understanding the nature of science or the processes of scientific inquiry?" Acceptance of these ends reduces the role of disciplinary context; the "Footprints Puzzle" and Oregon's…

Approaches to Inquiry Teaching: Elementary teacher's perspectives

NASA Astrophysics Data System (ADS)

Ireland, Joseph; Watters, James J.; Lunn Brownlee, J.; Lupton, Mandy

2014-07-01

Learning science through the process of inquiry is advocated in curriculum documents across many jurisdictions. However, a number of studies suggest that teachers struggle to help students engage in inquiry practices. This is not surprising as many teachers of science have not engaged in scientific inquiry and possibly hold naïve ideas about what constitutes scientific inquiry. This study investigates teachers' self-reported approaches to teaching science through inquiry. Phenomenographic interviews undertaken with 20 elementary teachers revealed teachers identified six approaches to teaching for inquiry, clustered within three categories. These approaches were categorized as Free and Illustrated Inquiries as part of an Experience-centered category, Solution and Method Inquiries as part of a Problem-centered category, and Topic and Chaperoned Inquiries as part of a Question-centered category. This study contributes to our theoretical understanding of how teachers approach Inquiry Teaching and suggests fertile areas of future research into this valued and influential phenomenon broadly known as 'Inquiry Teaching'.

Strategic Issues in University Information Management

NASA Astrophysics Data System (ADS)

Roosendaal, Hans E.

This chapter represents a specific view on university management. It sequentially discusses different organizational levels of e-teaching, starting with general management, e-science developments and what this means to universities, and business models followed by focusing on specific teaching issues. The chapter sets out to discuss the development of the university from a loose federation of faculties into a more integrated university, such as, e.g., an entrepreneurial university. This development is also driven by the introduction of the bachelors/masters system - a process which leads to the need for an institutional strategy introducing institutional quality management and has to be accompanied by the independent accreditation of research and teaching. Applying the model of strategic positioning to the university as a whole leads to the introduction of the university entrepreneur. The model is used to describe structural issues and the relations between the primary processes of research and teaching with the secondary processes. e-science is introduced as a further step toward the universal sharing of scientific results and to analyze the kind of incentives that will be required to attain this goal of making information an even more integral part of the research and teaching process.

Implementing an Imaginative Unit: Wonders of the Water Cycle

ERIC Educational Resources Information Center

Hrennikoff, Margo

2006-01-01

The grade three curriculum set out by the British Columbia Ministry of Education has four categories for science: Processes of Science, Life Science, Physical Science, and Earth and Space Science. Within each of these categories there are numerous topics to teach. For example, the physical science curriculum requires students to learn about…

What is Science?

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

Quinn, H.

Helen Quinn is a theoretical particle physicist at SLAC. Throughout her career, she has been passionately involved in science education and public understanding of science. In talking about science, whether to the public or to students, we scientists often assume that they share with us a common idea of science. In my experience that is often not the case. To oversimplify, scientists think of science both as a process for discovering properties of nature, and as the resulting body of knowledge, whereas most people seem to think of science, or perhaps scientists, as an authority that provides some information--just onemore » more story among the many that they use to help make sense of their world. Can we close that gap in understanding? Middle school teachers typically spend a day or so teaching something called the scientific method, but the process by which scientific ideas are developed and tested is messier and much more interesting than that typical capsule description. Some remarkable features of the process are seldom stressed in teaching science, nor are they addressed in explaining any one piece of science to the public. My goal in this column is to provide some ideas for closing that gap in understanding, and to encourage scientists and teachers to communicate about the process as they discuss scientific work.« less

Problematizing the Practicum to Integrate Practical Knowledge

NASA Astrophysics Data System (ADS)

Melville, Wayne; Campbell, Todd; Fazio, Xavier; Stefanile, Antonio; Tkaczyk, Nicholas

2014-10-01

This article examines the influence of a practicum teaching experience on two pre-service science teachers. The research is focused on examining a practicum in a secondary science department that actively promotes the teaching and learning of science as inquiry. We investigated the process through which the pre-service science teachers integrated their practical knowledge, and examined this in the context of the quantified reformed instruction they enacted. Using a mixed methods design, we have quantified these pre-service science teachers' practice using the Reformed Teaching Observation Protocol (Piburn et al. 2000), in concert with a narrative methodology drawn from in-depth interviews. Our analysis of the data indicates two important conclusions. The first is the importance of a consistently reformed image of science education being presented and practiced by both science teacher educators and cooperating teachers. The second is the recognition that a consistently reformed image may not be sufficient, of itself, to challenge pre-service teachers' views of science education. Pre-service teachers appear to be heavily influenced by their biographies and own science education. Consequently, it appears the extent to which a pre-service teacher identifies problems of teaching and learning, and then works toward possible resolution, influences their progress in shaping reformed views of science education.

Evaluation of a statewide science inservice and outreach program: Teacher and student outcomes

NASA Astrophysics Data System (ADS)

Lott, Kimberly Hardiman

Alabama Science in Motion (ASIM) is a statewide in-service and outreach program designed to provide in-service training for teachers in technology and content knowledge. ASIM is also designed to increase student interest in science and future science careers. The goals of ASIM include: to complement, enhance and facilitate implementation of the Alabama Course of Study: Science, to increase student interest in science and scientific careers, and to provide high school science teachers with curriculum development and staff development opportunities that will enhance their subject-content expertise, technology background, and instructional skills. This study was conducted to evaluate the goals and other measurable outcomes of the chemistry component of ASIM. Data were collected from 19 chemistry teachers and 182 students that participated in ASIM and 6 chemistry teachers and 42 students that do not participate in ASIM using both surveys and student records. Pre-treatment Chi-Square tests revealed that the teachers did not differ in years of chemistry teaching experience, major in college, and number of classes other than chemistry taught. Pre-treatment Chi-Square tests revealed that the students did not differ in age, ethnicity, school classification, or school type. The teacher survey used measured attitudes towards inquiry-based teaching, frequency of technology used by teacher self-report and perceived teaching ability of chemistry topics from the Alabama Course of Study-Science. The student surveys used were the Test of Science Related Attitudes (TOSRA) and a modified version of the Test of Integrated Process Skills (TIPS). The students' science scores from the Stanford Achievement Test (SAT-9) were also obtained from student records. Analysis of teacher data using a MANOVA design revealed that participation in ASIM had a significantly positive effect on teacher attitude towards inquiry-based teaching and the frequency of technology used; however, there was no significant effect on the perceived teaching ability of topics from the Alabama Course of Study-Science. Similar analysis of student data revealed that participation in ASIM had a significantly positive effect on student process skills acquisition and science achievement, but there were no significant effects on science attitudes.

The Effects of Jigsaw Technique Based on Cooperative Learning on Prospective Science Teachers' Science Process Skill

ERIC Educational Resources Information Center

Karacop, Ataman; Diken, Emine Hatun

2017-01-01

The purpose of this study is to investigate the effects of laboratory approach based on jigsaw method with cooperative learning and confirmatory laboratory approach on university students' cognitive process development in Science teaching laboratory applications, and to determine the opinions of the students on applied laboratory methods. The…

Proportional Reasoning Ability and Concepts of Scale: Surface Area to Volume Relationships in Science

ERIC Educational Resources Information Center

Taylor, Amy; Jones, Gail

2009-01-01

The "National Science Education Standards" emphasise teaching unifying concepts and processes such as basic functions of living organisms, the living environment, and scale. Scale influences science processes and phenomena across the domains. One of the big ideas of scale is that of surface area to volume. This study explored whether or not there…

Lesson Study-Building Communities of Learning Among Pre-Service Science Teachers

NASA Astrophysics Data System (ADS)

Hamzeh, Fouada

Lesson Study is a widely used pedagogical approach that has been used for decades in its country of origin, Japan. It is a teacher-led form of professional development that involves the collaborative efforts of teachers in co-planning and observing the teaching of a lesson within a unit for evidence that the teaching practices used help the learning process (Lewis, 2002a). The purpose of this research was to investigate if Lesson Study enables pre-service teachers to improve their own teaching in the area of science inquiry-based approaches. Also explored are the self-efficacy beliefs of one group of science pre-service teachers related to their experiences in Lesson Study. The research investigated four questions: 1) Does Lesson Study influence teacher preparation for inquiry-based instruction? 2) Does Lesson Study improve teacher efficacy? 3) Does Lesson Study impact teachers' aspiration to collaborate with colleagues? 4) What are the attitudes and perceptions of pre-service teachers to the Lesson Study idea in Science? The 12 participants completed two pre- and post-study surveys: STEBI- B, Science Teaching Efficacy Belief Instrument (Enochs & Riggs, 1990) and ASTQ, Attitude towards Science Teaching. Data sources included student teaching lesson observations, lesson debriefing notes and focus group interviews. Results from the STEBI-B show that all participants measured an increase in efficacy throughout the study. This study added to the body of research on teaching learning communities, professional development programs and teacher empowerment.

Historical Experiments and Physics Teaching: adding considerations from a Bibliographic Review and the Cultural History of Science

NASA Astrophysics Data System (ADS)

Jardim, W. T.; Guerra, A.

2017-12-01

In this paper, a discussion about the purposes of historical experiments in science teaching found in the literature will be presented. As a starting point, we carried out a bibliographic review, on the websites of six relevant periodicals for the area of Science Teaching and, especially for Physics Teaching. The search was based, at first, on works published between the years 2001 and 2016, from terms like "historical experiments", "museums" and "experience". Thereon, due to the large number of publications found, a screening process was developed based on the analysis of titles, abstracts, keywords and, whether necessary, the whole text, aiming to identify which searches emphasize working with historical experiments in Physics teaching, from a theoretical perspective or based on manipulation of a replica of historical apparatus. The selected proposals were arranged in categories adapted from the work of Heering and Höttecke (2014) which allowed us to draw a parallel between the national and international publication that presented resembling scopes. Furthermore, the analysis of the results leads us to infer that, in general, extralab factors, inherent to science, when not neglected, are placed in a peripheral perspective. Thus, we draw theoretical considerations based on Historians of Science, which develop their researches based on the bias of the Cultural History of Science, seeking to add reflections to what has been developed about historical experiments in teaching up to now.

Teaching science for conceptual change: Toward a proposed taxonomy of diagnostic teaching strategies to gauge students' personal science conceptions

NASA Astrophysics Data System (ADS)

Shope, Richard Edwin, III

Science instruction aims to ensure that students properly construct scientific knowledge so that each individual may play a role as a science literate citizen or as part of the science workforce (National Research Council, 1996, 2000). Students enter the classroom with a wide range of personal conceptions regarding science phenomena, often at variance with prevailing scientific views (Duschl, Hamilton, & Grandy, 1992; Hewson, 1992). The extensive misconceptions research literature emphasizes the importance of diagnosing students' initial understandings in order to gauge the accuracy and depth of what each student knows prior to instruction and then to use that information to adapt the teaching to address student needs. (Ausubel, 1968; Carey, 2000; Driver et al., 1985; Karplus & Thier, 1967; Mintzes, Wandersee, & Novak, 1998; Osborne & Freyberg, 1985; Project 2061, 1993; Strike & Posner, 1982, 1992; Vygotsky, 1934/1987). To gain such insight, teachers diagnose not only the content of the students' personal conceptions but also the thinking processes that produced them (Strike and Posner, 1992). Indeed, when teachers design opportunities for students to express their understanding, there is strong evidence that such diagnostic assessment also enhances science teaching and learning (Black & William, 1998). The functional knowledge of effective science teaching practice resides in the professional practitioners at the front lines---the science teachers in the classroom. Nevertheless, how teachers actually engage in the practice of diagnosis is not well documented. To help fill this gap, the researcher conducted a study of 16 sixth grade science classrooms in four Los Angeles area middle schools. Diagnostic teaching strategies were observed in action and then followed up by interviews with each teacher. Results showed that teachers use strategies that vary by the complexity of active student involvement, including pretests, strategic questions, interactive discussion, participatory demonstration, active inquiry, and metacognitive dialogue. Each strategy evokes expression of what students know prior to instruction, yielding different levels of useful information. These findings guided the construction of a proposed taxonomy of diagnostic teaching strategies to gauge students' personal science conceptions. This may be useful to guide future research and professional development of science teaching practice.

Environmental literacy framework with a focus on climate change (ELF): a framework and resources for teaching climate change

NASA Astrophysics Data System (ADS)

Huffman, L. T.; Blythe, D.; Dahlman, L. E.; Fischbein, S.; Johnson, K.; Kontar, Y.; Rack, F. R.; Kulhanek, D. K.; Pennycook, J.; Reed, J.; Youngman, B.; Reeves, M.; Thomas, R.

2010-12-01

The challenges of communicating climate change science to non-technical audiences present a daunting task, but one that is recognized in the science community as urgent and essential. ANDRILL's (ANtarctic geological DRILLing) international network of scientists, engineers, technicians and educators work together to convey a deeper understanding of current geoscience research as well as the process of science to non-technical audiences. One roadblock for educators who recognize the need to teach climate change has been the lack of a comprehensive, integrated set of resources and activities that are related to the National Science Education Standards. Pieces of the climate change puzzle can be found in the excellent work of the groups of science and education professionals who wrote the Essential Principles of Ocean Sciences, Climate Literacy: The Essential Principles of Climate Science, Earth Science Literacy Principles: The Big Ideas and Supporting Concepts of Earth Science, and Essential Principals and Fundamental Concepts for Atmospheric Science Literacy, but teachers have precious little time to search out the climate change goals and objectives in those frameworks and then find the resources to teach them. Through NOAA funding, ANDRILL has created a new framework, The Environmental Literacy Framework with a Focus on Climate Change (ELF), drawing on the works of the aforementioned groups, and promoting an Earth Systems approach to teaching climate change through five units: Atmosphere, Biosphere, Geosphere, Hydrosphere/Cryosphere, and Energy as the driver of interactions within and between the “spheres.” Each key concept in the framework has a hands-on, inquiry activity and matching NOAA resources for teaching the objectives. In its present form, we present a ‘road map’ for teaching climate change and a set of resources intended to continue to evolve over time.

Technology and Reform-Based Science Education

ERIC Educational Resources Information Center

Dani, Danielle E.; Koenig, Kathleen M.

2008-01-01

Current reforms in science education call for the integration of digital technologies into science teaching, advocating that students learn science content and processes through technology. In this article, we provide practical examples, situated within the literature, of how digital technologies can be used to support the development and…

Identifying the Individual Differences among Students during Learning and Teaching Process by Science Teachers

ERIC Educational Resources Information Center

Kubat, Ulas

2018-01-01

It is important for teachers to know variables such as physical characteristics, intelligence, perception, gender, ability, learning styles, which are individual differences of the learners. An effective and productive learning-teaching process can be planned by considering these individual differences of the students. Since the learners' own…

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.

Program to enrich science and mathematics experiences of high school students through interactive museum internships

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

Reif, R.J.; Lock, C.R.

1998-11-01

This project addressed the problem of female and minority representation in science and mathematics education and in related fields. It was designed to recruit high school students from under-represented groups into a program that provided significant, meaningful experiences to encourage those young people to pursue careers in science and science teaching. It provided role models for those students. It provided experiences outside of the normal school environment, experiences that put the participants in the position to serve as role models themselves for disadvantaged young people. It also provided encouragement to pursue careers in science and mathematics teaching and related careers.more » In these respects, it complemented other successful programs to encourage participation in science. And, it differed in that it provided incentives at a crucial time, when career decisions are being made during the high school years. Further, it encouraged the pursuit of careers in science teaching. The objectives of this project were to: (1) provide enrichment instruction in basic concepts in the life, earth, space, physical sciences and mathematics to selected high school students participating in the program; (2) provide instruction in teaching methods or processes, including verbal communication skills and the use of questioning; (3) provide opportunities for participants, as paid student interns, to transfer knowledge to other peers and adults; (4) encourage minority and female students with high academic potential to pursue careers in science teaching.« less

Biotechnology risks and benefits: Science instructor perspectives and practices

NASA Astrophysics Data System (ADS)

Gardner, Grant Ean

Developing scientifically literate students who understand the socially contextualized nature of science and technology is a national focus of science education reform. Understanding teachers' views on this topic is of equal importance. This document focuses on the topic of risks and benefits posed by science and technology as an important topic for which the socially contextualized nature of science and technology readily emerges. Following introduction of a theoretical model and a review of the literature, two research studies are described that examined teachers' perceptions of the risks posed by biotechnology and the role of risk topics in an undergraduate science course. The first research study examines four groups of science educators; pre-service science teachers, in-service science teachers, science graduate teaching assistants, and science professors (n = 91). The participants completed a survey and card sort task to determine their perceptions of the risks of biotechnology. The results show that teacher perceptions were shaped by the risk severity, regulation processes, public acceptance, fear, reciprocal benefits, and whether the applications would impact humans or the environment. Factors determining risk perception included personal worldviews, trust in communicating institutions, and personal experiences with biotechnology. The different types of science teachers were compared and contrasted in light of these factors and the implications of instructor perceptions on science pedagogy are discussed. The second research manuscript describes a case study in which six biology graduate teaching assistants (GTAs) were observed teaching as lesson on the potential risks and benefits of biotechnology. The data sources included classroom observations and semi-structured interviews. Qualitative analysis reveals that GTAs framed the instruction of risk in one of three ways: analytical, focus on perspectives and biases, and promotion of individual reflection. Interview results suggest that GTAs had a much richer understanding of the importance of the teaching of social aspects of science and technology than emerged in their teaching. Results are discussed in the context of the disconnect between the GTA's teaching practice and perspectives.

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…

Teaching and learning based on peer review: a realistic approach in forensic sciences.

PubMed

Dinis-Oliveira, Ricardo Jorge; Magalhães, Teresa

2016-01-01

Teaching and learning methods need a continuous upgrade in higher education. However it is also true that some of the modern methodologies do not reduce or prevent school failure. Perhaps the real limitation is the inability to identify the true reasons that may explain it or ignore/undervalue the problem. In our opinion, one of the current constraints of the teaching/learning process is the excess of and inadequate bibliography recommended by the teacher, which results in continuous student difficulties and waste of time in searching and selecting useful information. The need to change the paradigm of the teaching/learning process comes also from employers. They claim forensic experts armed with useful knowledge to face professional life. It is therefore mandatory to identify the new needs and opportunities regarding pedagogical methodologies. This article reflects on the recent importance of peer review in teaching/learning forensic sciences based on the last 10 years of pedagogical experience inseparably from the scientific activity.

Teaching and learning based on peer review: a realistic approach in forensic sciences

PubMed Central

Dinis-Oliveira, Ricardo Jorge; Magalhães, Teresa

2016-01-01

Teaching and learning methods need a continuous upgrade in higher education. However it is also true that some of the modern methodologies do not reduce or prevent school failure. Perhaps the real limitation is the inability to identify the true reasons that may explain it or ignore/undervalue the problem. In our opinion, one of the current constraints of the teaching/learning process is the excess of and inadequate bibliography recommended by the teacher, which results in continuous student difficulties and waste of time in searching and selecting useful information. The need to change the paradigm of the teaching/learning process comes also from employers. They claim forensic experts armed with useful knowledge to face professional life. It is therefore mandatory to identify the new needs and opportunities regarding pedagogical methodologies. This article reflects on the recent importance of peer review in teaching/learning forensic sciences based on the last 10 years of pedagogical experience inseparably from the scientific activity. PMID:27547377

Patterns in Nature Forming Patterns in Minds: An Evaluation of an Introductory Physics Unit

NASA Astrophysics Data System (ADS)

Sheaffer, Christopher Ryan

Educators are increasingly focused on the process over the content. In science especially, teachers want students to understand the nature of science and investigation. The emergence of scientific inquiry and engineering design teaching methods have led to the development of new teaching and evaluation methods that concentrate on steps in a process rather than facts in a topic. Research supports the notion that an explicit focus on the scientific process can lead to student science knowledge gains. In response to new research and standards many teachers have been developing teaching methods that seem to work well in their classrooms, but lack the time and resources to test them in other classroom environments. A high school Physics teacher (Bradford Hill) has developed a unit called Patterns in Nature (PIN) with objectives relating mathematical modeling to the scientific process. Designed for use in his large public school classroom, the unit was taken and used in a charter school with small classes. This study looks at specifically whether or not the PIN unit effectively teaches students how to graph the data they gather and fit an appropriate mathematical pattern, using that model to predict future measurements. Additionally, the study looks at the students' knowledge and views about the nature of science and the process of scientific investigation as it is affected by the PIN unit. Findings show that students are able to identify and apply patterns to data, but have difficulties explaining the meaning of the math. Students' show increases in their knowledge of the process of science, and the majority develop positive views about science in general. A major goal of this study is to place this unit in the cyclical process of Design-Based Research and allow for Pattern in Nature's continuous improvement, development and evaluation. Design-Based Research (DBR) is an approach that can be applied to the implementation and evaluation of classroom materials. This method incorporates the complexities of different contexts and changing treatments into the research methods and analysis. From the use of DBR teachers can understand more about how the designed materials affect the students. Others may be able to use the development and analysis of PIN study as a guide to look at similar aspects of science units developed elsewhere.

Case-based Long-term Professional Development of Science Teachers

NASA Astrophysics Data System (ADS)

Dori, Yehudit J.; Herscovitz, Orit

2005-10-01

Reform efforts are often unsuccessful because they failed to understand that teachers play a key role in making educational reforms successful. This paper describes a long-term teacher professional development (PD) program aimed at educating and training teachers to teach interdisciplinary topics using case-based method in science. The research objective was to identify, follow and document the processes that science teachers went through as they assimilated the interdisciplinary, case-based science teaching approach. The research accompanied the PD program throughout its 3-year period. About 50 teachers, who took part in the PD program, were exposed to an interdisciplinary case-based teaching method. The research instruments included teacher portfolios, which contained projects and reflection questionnaires, classroom observations, teacher interviews, and student feedback questionnaires. The portfolios contained the projects that the teachers had carried out during the PD program, which included case studies and accompanying student activities. We found that the teachers gradually moved from exposure to new teaching methods and subject matter, through active learning and preparing case-based team projects, to interdisciplinary, active classroom teaching using the case studies they developed.

Using Nonfiction Narratives in an English Course to Teach the Nature of Science and Its Importance to Communicating About Science †

PubMed Central

Aune, Jeanine Elise; Evans, Lynn Lundy; Boury, Nancy

2018-01-01

The nature of science (NOS) is a foundational framework for understanding scientific ideas and concepts. This framework includes scientific methodology, the process of revising and interpreting data, and the ways in which science is a social endeavor. Nature of science literature treats science as a way of knowing that is based on observable phenomenon. While discipline-specific coursework teaches the factual information of science, it may fall short on teaching scientific literacy, a key component of which is understanding NOS. We have designed an English course that features nonfiction narratives describing the early days of epidemiology, hygiene awareness, and the current controversy surrounding vaccination. Using a validated assessment of student understanding of NOS, the Student Understanding of Science and Scientific Inquiry (SUSSI), we have determined that this science-themed English composition course was effective in teaching NOS. Student understanding of NOS increased between the beginning and the end of the course in eight of the nine parameters of NOS measured, with the greatest gains in understanding the role of revision and of creativity in science. Our data imply that the course helped students develop a slightly less naïve understanding of the nature of science and its importance in the development and dissemination of scientific ideas and concepts. PMID:29904539

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…

Taking the lead from our colleagues in medical education: the use of images of the in-vivo setting in teaching concepts of pharmaceutical science.

PubMed

Curley, Louise E; Kennedy, Julia; Hinton, Jordan; Mirjalili, Ali; Svirskis, Darren

2017-01-01

Despite pharmaceutical sciences being a core component of pharmacy curricula, few published studies have focussed on innovative methodologies to teach the content. This commentary identifies imaging techniques which can visualise oral dosage forms in-vivo and observe formulation disintegration in order to achieve a better understanding of in-vivo performance. Images formed through these techniques can provide students with a deeper appreciation of the fate of oral formulations in the body compared to standard disintegration and dissolution testing, which is conducted in-vitro. Such images which represent the in-vivo setting can be used in teaching to give context to both theory and experimental work, thereby increasing student understanding and enabling teaching of pharmaceutical sciences supporting students to correlate in-vitro and in-vivo processes.

Teaching and learning in the science classroom: The interplay between teachers' epistemological moves and students' practical epistemology

NASA Astrophysics Data System (ADS)

Lidar, Malena; Lundqvist, Eva; Östman, Leif

2006-01-01

The practical epistemology used by students and the epistemological moves delivered by teachers in conversations with students are analyzed in order to understand how teaching activities interplay with the how and the what of students' learning. The purpose is to develop an approach for analyzing the process of privileging in students' meaning making and how individual and situational aspects of classroom discourse interact in this process. Here we especially focus on the experiences of students and the encounter with the teacher. The analyses also demonstrate that a study of teaching and learning activities can shed light on which role epistemology has for students' meaning making, for teaching and for the interplay between these activities. The methodological approach used is an elaboration a sociocultural perspective on learning, pragmatism, and the work of Wittgenstein. The empirical material consists of recordings made in science classes in two Swedish compulsory schools.

The Development of a Model of Culturally Responsive Science and Mathematics Teaching

ERIC Educational Resources Information Center

Hernandez, Cecilia M.; Morales, Amanda R.; Shroyer, M. Gail

2013-01-01

This qualitative theoretical study was conducted in response to the current need for an inclusive and comprehensive model to guide the preparation and assessment of teacher candidates for culturally responsive teaching. The process of developing a model of culturally responsive teaching involved three steps: a comprehensive review of the…

Idm@ti Network: An Innovative Proposal for Improving Teaching and Learning in Spanish Universities

ERIC Educational Resources Information Center

Salan, Nuria; Cabedo, Luis; Segarra, Mercedes; Guraya, Teresa; Lopez, Pascal; Sales, David; Gamez, Jose

2017-01-01

IdM@ti network members concurred in the diagnosis of the difficulties and opportunities arising from Bologna process implementation and teaching methodologies improvement in Materials Science and Engineering (MSE) teaching. This network has been created with the aim of improving efficiency of underway and future collaborations.The main objectives…

Teaching with Data in the Principles of Macroeconomics Course

ERIC Educational Resources Information Center

Zhuang, Hong

2012-01-01

Economic data play an important role in the study of macroeconomics. Teaching with data through interactive classes can engage students more fully in the learning process. Although the pedagogy of teaching with data has been widely applied in the undergraduate science classroom, its extension to the economics classroom is rarely discussed. This…

Holistic science: An understanding of science education encompassing ethical and social issues

NASA Astrophysics Data System (ADS)

Malekpour, Susan

Science has often been viewed, by the majority of our educators and the general public, as being objective and emotionless. Based on this view, our educators teach science in the same manner, objectively and in an abstract form. This manner of teaching has hindered our learners' ability for active learning and distanced them from the subject matter. In this action research, I have examined holistic science pedagogy in conjunction with a constructivism theory. In holistic science pedagogy, scientific knowledge is combined with subjective personal experiences and social issues. There is an interaction between student and scientific data when the student's context, relationships, and lived experiences that play a role in the scientific recognition of the world were incorporated into the learning process. In this pedagogical model, the factual content was viewed from the context of social and ethical implications. By empowering learners with this ability, science knowledge will no longer be exclusive to a select group. This process empowers the general population with the ability to understand scientific knowledge and therefore the ability to make informed decisions based on this knowledge. The goal was to make curriculum developers more conscious of factors that can positively influence the learning process and increase student engagement and understanding within the science classroom. The holistic approach to science pedagogy has enlightened and empowered our adult learners more effectively. Learners became more actively engaged in their own process of learning. Teachers must be willing to listen and implement student suggestions on improving the teaching/learning process. Teachers should be willing to make the effort in connecting with their students by structuring courses so the topics would be relevant to the students in relation to real world and social/ethical and political issues. Holistic science pedagogy strives for social change through the empowerment of adult learners with scientific knowledge. This research has demonstrated that learners can better understand the decision-making process and more easily relate their experiences, and therefore their knowledge, to social/political and ethical issues.

Lessons learned from a rigorous peer-review process for building the Climate Literacy and Energy Awareness (CLEAN) collection of high-quality digital teaching materials

NASA Astrophysics Data System (ADS)

Gold, A. U.; Ledley, T. S.; McCaffrey, M. S.; Buhr, S. M.; Manduca, C. A.; Niepold, F.; Fox, S.; Howell, C. D.; Lynds, S. E.

2010-12-01

The topic of climate change permeates all aspects of our society: the news, household debates, scientific conferences, etc. To provide students with accurate information about climate science and energy awareness, educators require scientifically and pedagogically robust teaching materials. To address this need, the NSF-funded Climate Literacy & Energy Awareness Network (CLEAN) Pathway has assembled a new peer-reviewed digital collection as part of the National Science Digital Library (NSDL) featuring teaching materials centered on climate and energy science for grades 6 through 16. The scope and framework of the collection is defined by the Essential Principles of Climate Science (CCSP 2009) and a set of energy awareness principles developed in the project. The collection provides trustworthy teaching materials on these socially relevant topics and prepares students to become responsible decision-makers. While a peer-review process is desirable for curriculum developer as well as collection builder to ensure quality, its implementation is non-trivial. We have designed a rigorous and transparent peer-review process for the CLEAN collection, and our experiences provide general guidelines that can be used to judge the quality of digital teaching materials across disciplines. Our multi-stage review process ensures that only resources with teaching goals relevant to developing climate literacy and energy awareness are considered. Each relevant resource is reviewed by two individuals to assess the i) scientific accuracy, ii) pedagogic effectiveness, and iii) usability/technical quality. A science review by an expert ensures the scientific quality and accuracy. Resources that pass all review steps are forwarded to a review panel of educators and scientists who make a final decision regarding inclusion of the materials in the CLEAN collection. Results from the first panel review show that about 20% (~100) of the resources that were initially considered for inclusion passed final review. Reviewer comments are recorded as annotations to enhance the resources in the collection and help educators with the implementation in their curriculum. CLEAN launched the first collection of digital educational resources about climate science and energy awareness in November 2010. The final CLEAN collection will include ≥500 resources and will also provide the alignment with the Benchmarks for Science Literacy and the NAAEE Excellence in Environmental Education Guidelines for Learning through the interactive NSDL strandmaps. We will present the first user feedback to this new collection.

Evolving Roles For Teaching Assistants In Introductory Courses

NASA Astrophysics Data System (ADS)

Dunbar, R. W.; Egger, A. E.; Schwartz, J. K.

2008-12-01

As we bring new research-based learning approaches, curricular innovations, and student engagement practices into the introductory science classroom, expectations of teaching assistants (TAs) should have, and have, changed. Similarly, the 21st century teaching assistant has different expectations of us. Maintaining relevance in this context means bringing TAs into an integrated teaching team that supports effective learning for students and provides structured professional development opportunities for TAs. A number of support efforts on our campus, with counterparts at many other universities, seek to optimize the instructional impact of faculty and teaching assistants, thus opening the door to enhanced student engagement (e.g. the quality of effort students put forth, their persistence in science and/or engineering courses, and their perception of scientific relevance in everyday life). Among these efforts, School of Earth Sciences course development TAs work 1:1 in advance of the term with introductory course faculty to design exercises and course materials that meet clearly articulated student learning goals or pedagogical challenges. Throughout the process, TAs are mentored by the faculty as well as science pedagogy experts. Initially funded by a major teaching award, the School is now moving to institutionalize this successful program which has broadened the definition of the TA role. Another area of optimization, reflecting Shulman's concept of pedagogical content knowledge, is our campus mandate that TA development take place within a departmental, as well as general, context. Both Chemistry and Physics expect introductory course TAs to lead interactive, guided-inquiry or tutorial-style sections. Integrating these sections with lecture and positively reinforcing course goals requires TA buy-in and a set of pedagogical facilitation skills cultivated through course-specific training and active mentoring while teaching. To better support the mentoring process in these and other departments, the MinT (Mentors in Teaching) program provides resources and a learning community for advanced graduate students who mentor TAs. There is clearly more to do, but we have come a long way from sink or swim toward an enriched infrastructure of support for teaching and learning in the introductory science classroom.

Teaching children the structure of science

NASA Astrophysics Data System (ADS)

Börner, Katy; Palmer, Fileve; Davis, Julie M.; Hardy, Elisha; Uzzo, Stephen M.; Hook, Bryan J.

2009-01-01

Maps of the world are common in classroom settings. They are used to teach the juxtaposition of natural and political functions, mineral resources, political, cultural and geographical boundaries; occurrences of processes such as tectonic drift; spreading of epidemics; and weather forecasts, among others. Recent work in scientometrics aims to create a map of science encompassing our collective scholarly knowledge. Maps of science can be used to see disciplinary boundaries; the origin of ideas, expertise, techniques, or tools; the birth, evolution, merging, splitting, and death of scientific disciplines; the spreading of ideas and technology; emerging research frontiers and bursts of activity; etc. Just like the first maps of our planet, the first maps of science are neither perfect nor correct. Today's science maps are predominantly generated based on English scholarly data: Techniques and procedures to achieve local and global accuracy of these maps are still being refined, and a visual language to communicate something as abstract and complex as science is still being developed. Yet, the maps are successfully used by institutions or individuals who can afford them to guide science policy decision making, economic decision making, or as visual interfaces to digital libraries. This paper presents the process and results of creating hands-on science maps for kids that teaches children ages 4-14 about the structure of scientific disciplines. The maps were tested in both formal and informal science education environments. The results show that children can easily transfer their (world) map and concept map reading skills to utilize maps of science in interesting ways.

Science teachers teaching socioscientific issues (SSI): Four case studies

NASA Astrophysics Data System (ADS)

Lee, Hyunju

Socioscientific issues (SSI) are a class of issues that represent the social, ethical, and moral aspects of science in society. The need for the inclusion of SSI into science curricula has been generally accepted, but relatively few science teachers have incorporated SSI into their courses. Most science teachers feel that their most important task by far is to teach the principles of science, and any substantive pedagogical changes represent a burden. However, there are some teachers who address SSI out of personal initiatives. This dissertation study investigates four high school science teachers who address SSI out of their own initiative and explores their deeper inspirations, values, philosophies, and personal ideals that lead them to teach SSI. The overall approach is based on essentialist methodology (Witz, Goodwin, Hart, & Thomas, 2001; Witz, 2006a) with its focus on "the participant as ally" and "essentialist portraiture." The primary data source is four to six in-depth interviews with individual teachers (about 40-90 minutes for each interview). The interviews are complemented by extensive classroom observations of individual teachers' teaching SSI and by document analysis (including teaching materials, rubrics, student group projects and journals, etc.). There are two major findings. First, the teachers' deeper values and ideals are a source of larger inspiration that plays a significant role in changing their teaching practice. This inspiration may involve higher aspects (e.g., deep concern for students' development, unselfishness, caring, etc.) and commitment. Their teaching represents an integration of their personal experiences, values, concerns, and worldviews, which forms a larger inspiration for teaching. Teaching SSI is a part of this larger process. Second, the current curriculum reforms (STS, SSI, and NOS) only suggest theoretical ideals and do not effectively touch teachers' deeper values and ideals. Basically, the teachers are doing what they think is important for students and are developing their own approaches without any contact with the reform efforts. This brings some consequences in their teaching of SSI. Overall, this study suggests that real changes in science education can be achieved only if they are synchronized with individual teachers' deeper motivations.

Gravitating Toward Reggio.

ERIC Educational Resources Information Center

Desouza, Josephine M. Shireen; Jereb, Jill

2000-01-01

Explains the process of teaching about force, inertia, gravity, and friction to kindergarten students using the Reggio Emilia Approach. Incorporates writing, reading, counting, building vocabulary, and developing science and social skills. Addresses the Science as Inquiry Content Standard A and Physical Science Content Standard B of the National…

Project LAUNCH: Bringing Space into Math and Science Classrooms

NASA Technical Reports Server (NTRS)

Fauerbach, M.; Henry, D. P.; Schmidt, D. L.

2005-01-01

Project LAUNCH is a K-12 teacher professional development program, which has been created in collaboration between the Whitaker Center for Science, Mathematics and Technology Education at Florida Gulf Coast University (FGCU), and the Florida Space Research Institute (FSRI). Utilizing Space as the overarching theme it is designed to improve mathematics and science teaching, using inquiry based, hands-on teaching practices, which are aligned with Florida s Sunshine State Standards. Many students are excited about space exploration and it provides a great venue to get them involved in science and mathematics. The scope of Project LAUNCH however goes beyond just providing competency in the subject area, as pedagogy is also an intricate part of the project. Participants were introduced to the Conceptual Change Model (CCM) [1] as a framework to model good teaching practices. As the CCM closely follows what scientists call the scientific process, this teaching method is also useful to actively engage institute participants ,as well as their students, in real science. Project LAUNCH specifically targets teachers in low performing, high socioeconomic schools, where the need for skilled teachers is most critical.

Assessing Students' Experimentation Processes in Guided Inquiry

ERIC Educational Resources Information Center

Emden, Markus; Sumfleth, Elke

2016-01-01

In recent science education, experimentation features ever more strongly as a method of inquiry in science classes rather than as a means to illustrate phenomena. Ideas and materials to teach inquiry abound. Yet, tools for assessing students' achievement in their processes of experimentation are lacking. The present study assumes a basal,…

A Case Study of Group Processes and Student Evaluation of Teaching

ERIC Educational Resources Information Center

Mortenson, Kristian G.; Sathe, Richard S.

2017-01-01

This paper documents a case study undertaken to understand the effect of group processes on student evaluation of teaching (SET). The study used interviews to investigate the experiences of students in a cohort model Master of Science in Accountancy degree program and how those experiences influenced SET. The cohort served as an extreme example in…

An NSTA Position Statement: International Science Education and the National Science Teachers Association

ERIC Educational Resources Information Center

National Science Teachers Association (NJ1), 2009

2009-01-01

The National Science Teachers Association (NSTA) encourages and promotes international science education because it has the ability to improve the teaching and learning of science, as well as to "empower people, improve their quality of life, and increase their capacity to participate in the decision-making processes leading to social, cultural,…

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,…

Astronomy in the Initial Formation of Sciences Teachers

NASA Astrophysics Data System (ADS)

Costa, Samuel; Euzébio, Geison João; Damasio, Felipe

2016-12-01

Although astronomy is considered one of the older sciences of mankind, its teaching in basic education is facing problems. It is the school responsibility the dissemination of correct scientific concepts, including those related to Astronomy. This study was conducted at the Federal Institute of Education, Science and Technology of Santa Catarina, Campus Araranguá. In this article, we aimed to present the activities developed to help the formation of teachers, training undergraduate students in Natural Sciences with specialization in Physics to contribute to the dissemination and improvement of the teaching-learning of Astronomy. This paper presents the process and results of the evaluation of that training program. Analyses of the activity from the perspective of the participants are indicated and additional considerations are made regarding its use as a resource for teaching Astronomy and for teacher training.

The science teacher as the organic link in science learning: Identity, motives, and capital transfer

NASA Astrophysics Data System (ADS)

Alexakos, Konstantinos

This life history study is based on in-depth interviews of five science teachers and explores themes of science teachers' experiences as science learners and how these experiences frame what I have come to call "the subjective aspects of teaching." These themes seem to imply that through such individual experiences individuals develop a personally unique lens through which they view and interpret science, science meanings, and science teaching and learning. Emerging themes created new questions to pursue and they in turn produced new themes. These were further investigated in an attempt to connect science learning and science teachers to broader issues in society. These themes include that of a dynamic, dialectical learning and understanding of science by the participants, developed and influenced through a combination of their families, their schools, and their professional experiences, and in which morals and passion play major roles. The theme of the "organic link" is also introduced and developed in this research. It includes these individuals' views of science and the scientific enterprise, their path to learning, their morals, passions, and choices, and their way of constructing knowledge and the transmission of such a process. As organic links, they are seen as a direct and necessary social connection between science and the science learner, and they foster educational experiences grounded in the social lives of their students. Not only are they seen as "transmitters" of science knowledge and the process of constructing knowledge, but they are also seen as correcting and adjusting perceived diversions of the students' thinking from that of their own. It is in this context that the concept of capital (human and cultural capital, as well as capital exchange) is also explored. These themes are seen as having immense impact on how these science teachers teach, where they teach, what is communicated to their students, and whether they become or remain science teachers. As teachers, they are affected differentially by the school culture and environment. It is within this context, as well as how these participants see their students, that the themes of identity construction and "multiple realities" are developed and discussed.

A grounded theory study on the role of differentiated instruction in effective middle school science teaching

NASA Astrophysics Data System (ADS)

Jones, Brian Kirby

The purpose of this grounded theory study was to develop a model explaining the role of differentiated instruction (DI) in effective middle school science teaching. The study examined the best teaching practices and differentiated elements from eight general education middle school science teachers, all scoring at the highest level of a teaching effectiveness measure on their evaluations, through a collection of observational, interview, survey, and teaching artifact data. The data were analyzed through the methodology of a systematic grounded theory qualitative approach using open, axial, and selective coding to develop a model describing how and to what degree effective middle school science teachers differentiated their best teaching practices. The model that emerged from the data shows instruction as a four-phase process and highlights the major elements of best practices and DI represented at each phase. The model also depicts how teachers narrowed the scope of their differentiating strategies as instruction progressed. The participants incorporated DI into their pedagogies, though in different degrees at each phase, and primarily by using variety to present concepts with multiple types of instruction followed by a series of sense-making activities related to several learning modalities. Teachers scaffolded students carefully, using informal and formal assessment data to inform future instructional decisions and especially their plans to reteach or extend on a concept. The model is intended to provide insight into the value of DI for middle school science teaching.

Development and Evaluation of Science and Technology Education Program Using Interferometric SAR

NASA Astrophysics Data System (ADS)

Ito, Y.; Ikemitsu, H.; Nango, K.

2016-06-01

This paper proposes a science and technology education program to teach junior high school students to measure terrain changes by using interferometric synthetic aperture radar (SAR). The objectives of the proposed program are to evaluate and use information technology by performing SAR data processing in order to measure ground deformation, and to incorporate an understanding of Earth sciences by analyzing interferometric SAR processing results. To draft the teaching guidance plan for the developed education program, this study considers both science and technology education. The education program was used in a Japanese junior high school. An educational SAR processor developed by the authors and the customized Delft object-oriented radar interferometric software package were employed. Earthquakes as diastrophism events were chosen as practical teaching materials. The selected events indicate clear ground deformation in differential interferograms with high coherence levels. The learners were able to investigate the ground deformations and disasters caused by the events. They interactively used computers and became skilled at recognizing the knowledge and techniques of information technology, and then they evaluated the technology. Based on the results of pre- and post-questionnaire surveys and self-evaluation by the learners, it was clarified that the proposed program was applicable for junior high school education, and the learners recognized the usefulness of Earth observation technology by using interferometric SAR. The usefulness of the teaching materials in the learning activities was also shown through the practical teaching experience.

The effects of a summer science camp teaching experience on preservice elementary teachers' science teaching efficacy, science content knowledge, and understanding of the nature of science

NASA Astrophysics Data System (ADS)

Logerwell, Mollianne G.

The purpose of this study was to investigate the impact of a summer science camp teaching experience on preservice elementary teachers' science teaching efficacy, science content knowledge, and understanding of the nature of science. Master's degree students enrolled in the elementary Fairfax Partnership Schools (FPS, n = 21) cohort served as the treatment group, while those enrolled in the Loudoun Partnership Schools (LPS, n = 15) and Professional Development Schools (PDS, n = 24) cohorts at George Mason University served as the control groups. The treatment group planned for and taught a two-week inquiry- and problem-based summer science camp as part of their science methods course, while the control groups did not. The Science Teaching Efficacy Belief Instrument (STEBI), a science content assessment, a personal data questionnaire, and a modified version of the Views of Nature of Science Questionnaire (VNOS-C) were administered to the participants at the beginning and end of their science methods course. Analyses revealed significant increases for the FPS group in general science teaching efficacy, personal science teaching efficacy, science teaching outcome expectancy, general science knowledge, biology content knowledge, chemistry content knowledge, and understanding of NOS; the LPS group in general science teaching efficacy, personal science teaching efficacy, chemistry content knowledge, and understanding of NOS; and, the PDS group in general science teaching efficacy, personal science teaching efficacy, and chemistry content knowledge. Additionally, the FPS group had significantly higher general science teaching efficacy than both control groups, personal science teaching efficacy than the PDS group, and understanding of NOS than the LPS group. Overall, the findings indicate that course length is not as important for developing preservice teachers' teaching efficacy and understanding of content as having connected, authentic field-based teaching experiences that are based on best-practices research and coupled with methodological instruction.

STEM education and Fermi problems

NASA Astrophysics Data System (ADS)

Holubova, Renata

2017-01-01

One of the research areas of Physics education is the study of the educational process. Investigations in this area are aimed for example on the teaching and learning process and its results. The conception of STEM education (Science, Technology, Engineering, and Mathematics) is discussed - it is one possible approach to the preparation of the curriculum and the focus on the educational process at basic and secondary schools. At schools in the Czech Republic STEM is much more realized by the application of interdisciplinary relations between subjects Physics-Nature-Technique. In both conceptions the aim is to support pupils' creativity, critical thinking, cross-curricular links. In this context the possibility of using Fermi problems in teaching Physics was discussed (as an interdisciplinary and constructivist activity). The aim of our research was the analysis of Fermi problems solving strategies, the ability of pupils to solve Fermi problems. The outcome of our analysis was to find out methods and teaching strategies which are important to use in teaching - how to solve qualitative and interdisciplinary tasks in physics. In this paper the theoretical basis of STEM education and Fermi problems will be presented. The outcome of our findings based on the research activities will be discussed so as our experiences from 10 years of Fermi problems competition that takes place at the Science Faculty, Palacky University in Olomouc. Changes in competencies of solving tasks by our students (from the point of view in terms of modern, activating teaching methods recommended by theory of Physics education and other science subjects) will be identified.

Understanding University Reform in Japan through the Prism of the Social Sciences

ERIC Educational Resources Information Center

Goodman, Roger

2008-01-01

This article looks at current university reforms in Japan through two slightly different social science prisms: how social science methodologies and theories can help us understand those reforms better and how social science teaching in universities will be affected by the current reform processes. (Contains 3 tables and 7 notes.)

Implementing Science Notebooks in the Primary Grades

ERIC Educational Resources Information Center

Nesbit, Catherine R.; Hargrove, Tracy Y.; Harrelson, Linda; Maxey, Bob

2004-01-01

In this article, the author details the process teachers can use to teach primary-age children how to use science notebooks. To lay the foundation for using notebooks, the author describes important elements of science notebooks and makes a distinction between science note-books and journals. In addition, the article highlights the benefits…

Undergraduate Non-Science Majors' Descriptions and Interpretations of Scientific Data Visualizations

ERIC Educational Resources Information Center

Swenson, Sandra Signe

2010-01-01

Professionally developed and freely accessible through the Internet, scientific data maps have great potential for teaching and learning with data in the science classroom. Solving problems or developing ideas while using data maps of Earth phenomena in the science classroom may help students to understand the nature and process of science. Little…

Improving Reading in Science. Second Edition. Reading Aids Series; An IRA Service Bulletin.

ERIC Educational Resources Information Center

Thelen, Judith N.

Based on the idea that reading instruction in science means teaching simultaneously the science content and the reading and reasoning processes by which that content is learned, this booklet offers practical and theoretical suggestions for science teachers to help students improve their content area comprehension. Chapters discuss the following…

Humorous Cartoons Made by Preservice Teachers for Teaching Science Concepts to Elementary Students: Process and Product

ERIC Educational Resources Information Center

Rule, Audrey C.; Sallis, Derek A.; Donaldson, J. Ana

2008-01-01

Elementary school science is an often-neglected subject in the current literacy-focused political atmosphere. However, reading informational trade books about science in literacy class can help children increase their science knowledge. Incorporating humor through content-related cartoons is an effective way to engage students in deeper…

Impact of Electronic Teaching Materials on Process of Education--Results of an Experiment

ERIC Educational Resources Information Center

Záhorec, Ján; Hašková, Alena; Munk, Michal

2010-01-01

In their paper the authors deal with the vital issues of creation and application of electronic teaching materials for natural science subjects teaching. They describe an experimental examination of qualitative impact of these aids on education. The authors present a part of research results, which they obtained in a major research focused on…

Using a Simple "Escherichia Coli" Growth Curve Model to Teach the Scientific Method

ERIC Educational Resources Information Center

McKernan, Lisa N.

2015-01-01

The challenge of teaching in the sciences is not only conveying knowledge in the discipline, but also developing essential critical thinking, data analysis, and scientific writing skills. I outline an exercise that can be done easily as part of a microbiology laboratory course. It teaches the nature of the research process, from asking questions…

Introductory Computer Programming Course Teaching Improvement Using Immersion Language, Extreme Programming, and Education Theories

ERIC Educational Resources Information Center

Velez-Rubio, Miguel

2013-01-01

Teaching computer programming to freshmen students in Computer Sciences and other Information Technology areas has been identified as a complex activity. Different approaches have been studied looking for the best one that could help to improve this teaching process. A proposed approach was implemented which is based in the language immersion…

Promoting Inquiry-Based Teaching in Laboratory Courses: Are We Meeting the Grade?

ERIC Educational Resources Information Center

Beck, Christopher; Butler, Amy; Burke da Silva, Karen

2014-01-01

Over the past decade, repeated calls have been made to incorporate more active teaching and learning in undergraduate biology courses. The emphasis on inquiry-based teaching is especially important in laboratory courses, as these are the courses in which students are applying the process of science. To determine the current state of research on…

Science Teaching Efficacy of Preservice Elementary Teachers: Examination of the Multiple Factors Reported as Influential

NASA Astrophysics Data System (ADS)

Taştan Kırık, Özgecan

2013-12-01

This study explores the science teaching efficacy beliefs of pr-service elementary teachers and the relationship between efficacy beliefs and multiple factors such as antecedent factors (participation in extracurricular activities and number of science and science teaching methods courses taken), conceptual understanding, classroom management beliefs and science teaching attitudes. Science education majors ( n = 71) and elementary education majors ( n = 262) were compared with respect to these variables. Finally, the predictors of two constructs of science teaching efficacy beliefs, personal science teaching efficacy (PSTE) and science teaching outcome expectancy (STOE), were examined by multiple linear regression analysis. According to the results, participation in extracurricular activities has a significant but low correlation with science concept knowledge, science teaching attitudes, PSTE and STOE. In addition, there is a small but significant correlation between science concept knowledge and outcome expectancy, which leads the idea that preservice elementary teachers' conceptual understanding in science contributes to their science teaching self-efficacy. This study reveals a moderate correlation between science teaching attitudes and STOE and a high correlation between science teaching attitudes and PSTE. Additionally, although the correlation coefficient is low, the number of methodology courses was found to be one of the correlates of science teaching attitudes. Furthermore, students of both majors generally had positive self-efficacy beliefs on both the STOE and PSTE. Specifically, science education majors had higher science teaching self-efficacy than elementary education majors. Regression results showed that science teaching attitude is the major factor in predicting both PSTE and STOE for both groups.

"Discovering Plate Boundaries in Data-Rich Environments": Supporting Pre-service Teachers involvement in Unique Practices of Geosciences

NASA Astrophysics Data System (ADS)

Barrie, A. S.; Moore, J.

2012-12-01

Plate tectonics is one of the core scientific concepts in both the NRC K-12 standards documents (#ESS2.B) and College Board Standards for Science (#ES.1.3). These documents also mention the scientific practices expected to improve as students are learning plate tectonics: interpreting data based on their observations of maps and argumentation around the evidence based on data. Research on students' understanding of maps emphasizes the difficulty of reading maps in science classrooms.We are conducting an ethnographic case study of the process of learning and teaching by novice teachers in the middle school science major at a mid-Atlantic University. The participants of the study are third-year majors (in the middle school science program and middle students at a suburban middle school. The study uses the data from four different fields (geography, geochronology, volcanology and seismology) to help involve preservice teachers in the practices of geosciences.The data for the study includes video and audio records of novice teachers' learning and teaching processes as well as teachers' reflections about their learning and on teaching Plate Tectonics by using real data. The video and audio data will be compiled and synthesized into event maps and transcripts, which are necessary for sociolinguistic analysis. Event maps provide an overall view of the events and are used to map the learning and teaching events into timely sequences and phases based on the subtopics and types of educational activities. Transcripts cover in detail the discussion and activity observed at each phase of the learning and teaching events. After compilation, event maps and transcripts will be analyzed by using Discourse analysis with an ethnographic perspective in order to identify novice teachers' challenges and the improvement they want to make on their teaching and assessment artifacts. The preliminary findings of the project identified challenges faced by novice teachers learning and teaching plate tectonics using key scientific practices. As a result of the educational activities developed in this project, we will try help teachers to overcome their challenges and develop the pedagogical skills that novice teachers need to use to teach plate tectonics by focusing on key scientific practices with the help of previously-developed educational resources. Learning about the processes that occur at plate boundaries will help future teachers (and their students) understand natural disasters such as earthquakes and volcanoes. Furthermore, the study will have a significant, and broader, impact by 'teaching the teachers' and empowering novice teachers to overcome the challenges of reading maps and using argumentation in science classrooms.

Journal Article: Using Scientists and Real-World Scenarios in Professional Development for Middle School Science Teachers

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

Morrison, Judith A.; Estes, Jeffrey C.

Middle school science teachers were involved in a problem-solving experience presented and guided by research scientists. Data on the teachers’ perspectives about this professional development and any impact it may have had on their teaching practices were collected through interviews, surveys, and classroom observations. The findings show that the professional development experience was positive, although one concern expressed by teachers was their lack of understanding of the scientists’ vocabulary. Using scientists and real-world scenarios was shown to be an effective strategy for encouraging middle school teachers to teach science as a process and help them strengthen their science content understanding.

Something's Fishy in Paxton Lake: A Case on Speciation in Sticklebacks.

ERIC Educational Resources Information Center

Sharp, Joan

2002-01-01

Introduces a case study on speciation and evolutionary mechanisms. Teaches science process skills as well as natural selection, biological species concepts, basic genetic terminology, and classification. Includes teaching notes and classroom management strategies. (Contains 14 references.) (YDS)

The Teaching of Anthropogenic Climate Change and Earth Science via Technology-Enabled Inquiry Education

NASA Technical Reports Server (NTRS)

Bush, Drew; Sieber, Renee; Seiler, Gale; Chandler, Mark

2016-01-01

A gap has existed between the tools and processes of scientists working on anthropogenic global climate change (AGCC) and the technologies and curricula available to educators teaching the subject through student inquiry. Designing realistic scientific inquiry into AGCC poses a challenge because research on it relies on complex computer models, globally distributed data sets, and complex laboratory and data collection procedures. Here we examine efforts by the scientific community and educational researchers to design new curricula and technology that close this gap and impart robust AGCC and Earth Science understanding. We find technology-based teaching shows promise in promoting robust AGCC understandings if associated curricula address mitigating factors such as time constraints in incorporating technology and the need to support teachers implementing AGCC and Earth Science inquiry. We recommend the scientific community continue to collaborate with educational researchers to focus on developing those inquiry technologies and curricula that use realistic scientific processes from AGCC research and/or the methods for determining how human society should respond to global change.

Part I: Virtual Laboratory versus Traditional Laboratory: Which Is More Effective for Teaching Electrochemistry? Part II: The Green Synthesis of Aurones Using a Deep Eutectic Solvent

ERIC Educational Resources Information Center

Hawkins, Ian C.

2013-01-01

The role of the teaching laboratory in science education has been debated over the last century. The goals and purposes of the laboratory are still debated and while most science educators consider laboratory a vital part of the education process, they differ widely on the purposes for laboratory and what methods should be used to teach…

An Innovation Teaching Experience Following Guidelines of European Space of Higher Education in the Interactive Learning

NASA Astrophysics Data System (ADS)

Zamorano, M.; Rodríguez, M. L.; Ramos-Ridao, A. F.; Pasadas, M.; Priego, I.

The Area of Environmental Technology in Department of Civil Engineering has developed an innovation education project, entitled Application of new Information and Communication Technologies in Area of Environmental Technology teaching, to create a Web site that benefits both parties concerned in teaching-learning process, teachers and students. Here teachers conduct a supervised teaching and students have necessary resources to guide their learning process according to their capacities and possibilities. The project has also included a pilot experience to introduce European Space of Higher Education (ESHE) new teaching concept based on student's work, in one subject of Environmental Science degree, considering interactive learning complementary to presence teaching. The experience has showed strength and weakness of the method and it is the beginning in a gradual process to guide e-learning education in future.

Enhancing Teaching Excellence through a Scientist-Science Teacher Collaborative Process.

ERIC Educational Resources Information Center

Haakonsen, Harry; And Others

1993-01-01

The Institute for Science Instruction and Study (ISIS) at Southern Connecticut State University was established to place experienced science teachers in extended contact with a variety of research scientists working at the cutting edge of their fields. Reports program goals, format, requirements, and evaluation. (LZ)

An investigation into the factors that motivate teachers to implement inquiry in the science classroom

NASA Astrophysics Data System (ADS)

Robbins, Beth Schieber

Inquiry-based science teaching is an inductive approach to science instruction that originated in constructivist learning theory and requires students to be active participants in their own learning process. In an inquiry-based classroom, students actively construct their knowledge of science through hands-on, engaged practices and inquiry-based approaches. Inquiry-based teaching stands in contrast to more traditional forms of teaching that see students as empty vessels to be filled by the teacher with rote facts. Despite calls from the NSF, the NRC, and the AAAS for more inquiry-based approaches to teaching science, research has shown that many teachers still do not use inquiry-based approaches. Teachers have cited difficulties including lack of time, high-stakes testing, a shortage of materials, problems with school-wide logistics, rigid science curricula, student passivity, and lack of prerequisite skills. The objective of this mixed-methods study was to examine to what extent specific, identifiable personality traits contribute to the likelihood that a teacher will use inquiry in the science classroom, and what factors figure predominantly as teachers' reasons for implementing inquiry. The findings of the study showed that the null hypotheses were not rejected. However, reduced conscientiousness and increased openness may be significant in indicating why teachers use inquiry-based teaching methods and avenues for further research. In addition, the qualitative results aligned with previous findings that showed that lack of resources (e.g., time and money) and peer support act as powerful barriers to implementing inquiry-based teaching. Inquiry teachers are flexible, come to teaching as a second or third career, and their classrooms can be characterized as chaotic, fun, and conducive to learning through engagement. The study suggests changes in practice among administrators and teachers. With adjustments in methods and survey instruments, additional research could provide valuable insights and further recommendations. Overall, this study has yielded information that may lead to changes in both practice and thinking related to inquiry-based teaching and learning.

Integration of ICT Methods for Teaching Science and Astronomy to Students and Teachers

NASA Astrophysics Data System (ADS)

Ghosh, Sumit; Chary, Naveen; Raghavender, G.; Aslam, Syed

All children start out as scientist, full of curiosity and questions about the world, but schools eventually destroy their curiosity. In an effective teaching and learning process, the most challenging task is to motivate the students. As the science subjects are more abstract and complex, the job of teachers become even more daunting. We have devised an innovative idea of integrating ICT methods for teaching space science to students and teachers. In a third world country like India, practical demonstrations are given less importance and much emphasis is on theoretical aspects. Even the teachers are not trained or aware of the basic concepts. With the intention of providing the students and as well as the teachers more practical, real-time situations, we have incorporated innovative techniques like video presentation, animations, experimental models, do-yourself-kits etc. In addition to these we provide hands on experience on some scientific instruments like telescope, Laser. ICT has the potential to teach complex science topics to students and teachers in a safe environment and cost effective manner. The students are provided with a sense of adventure, wherein now they can manipulate parameters, contexts and environment and can try different scenarios and in the process they not only learn science but also the content and also the reasoning behind the content. The response we have obtained is very encouraging and students as well as teachers have acknowledged that they have learnt new things, which up to now they were ignorant of.

Using a Laboratory Simulator in the Teaching and Study of Chemical Processes in Estuarine Systems

ERIC Educational Resources Information Center

Garcia-Luque, E.; Ortega, T.; Forja, J. M.; Gomez-Parra, A.

2004-01-01

The teaching of Chemical Oceanography in the Faculty of Marine and Environmental Sciences of the University of Cadiz (Spain) has been improved since 1994 by the employment of a device for the laboratory simulation of estuarine mixing processes and the characterisation of the chemical behaviour of many substances that pass through an estuary. The…

Using the First-Year English Class to Develop Scientific Thinking Skills

NASA Astrophysics Data System (ADS)

McNamara, B. J.; Burnham, C.; Green, S.; Ball, E.; Schryer, A.

2002-12-01

This poster presents the preliminary results from an experimental approach to teaching first-year writing using the scientific method as an organizing theme. The approach presumes a close connection between the classical scientific method: observing, hypothesis forming, hypothesis testing, and generalizing from the results of the testing, and the writing process: inventing and prewriting, drafting, and revising. The project has four goals: 1. To introduce students to the relations between scientific method, academic inquiry, and the writing process; 2. To help students see that academic inquiry, the work of generating, testing, and validating knowledge and then applying that knowledge in real contexts, is actually a hybrid form of the scientific method; 3. To encourage students to connect the work they are doing in the writing classroom with the work they are doing in other classes so they can transfer the skills learned in one context to the other; and 4. To cause students who have previously been alienated by science and science teaching to reconsider their attitudes, and to see the powerful influence of science and scientific thinking in our world. In short, we are teaching science literacy in a humanities classroom. The materials we use include science-based reading and the kinds of writing typically required in science classes. The poster presents the basic premises of the project, samples of class materials, and preliminary results of a controlled pre- and post-test of student attitudes toward science and writing, analyzed especially according to gender and minority status. We also present insights by participating instructors including a female graduate teaching assistant who had been trained as a scientist and a male who had not.

Case Studies Add Value to a Diverse Teaching Portfolio in Science Courses

ERIC Educational Resources Information Center

Camill, Philip

2006-01-01

Together with lectures and labs, case studies assist students in acquiring content knowledge, process skills, and an understanding of the context and application of science to their daily lives. Cases make the process of scientific learning more genuine and rigorous, bringing alive classroom learning and helping students apply concepts to…

Systematic Modeling versus the Learning Cycle: Comparative Effects of Integrated Science Process Skill Achievement.

ERIC Educational Resources Information Center

Norman, John T.

1992-01-01

Reports effectiveness of modeling as teaching strategy on learning science process skills. Teachers of urban sixth through ninth grade students were taught modeling techniques; two sets of teachers served as controls. Results indicate students taught by teachers employing modeling instruction exhibited significantly higher competence in process…

Tetrahymena in the classroom.

PubMed

Smith, Joshua J; Wiley, Emily A; Cassidy-Hanley, Donna M

2012-01-01

Tetrahymena has been a useful model in basic research in part due to the fact it is easy to grow in culture and exhibits a range of complex processes, all within a single cell. For these same reasons Tetrahymena has shown enormous potential as a teaching tool for fundamental principles of biology at multiple science education levels that can be integrated into K-12 classrooms and undergraduate and graduate college laboratory courses. These Tetrahymena-based teaching modules are inquiry-based experiences that are also effective at teaching scientific concepts, retaining students in science, and exciting students about the scientific process. Two learning communities have been developed that utilize Tetrahymena-based teaching modules. Advancing Secondary Science Education with Tetrahymena (ASSET) and the Ciliate Genomics Consortium (CGC) have developed modules for K-12 students and college-level curriculums, respectively. These modules range from addressing topics in ecology, taxonomy, and environmental toxicity to more advanced concepts in biochemistry, proteomics, bioinformatics, cell biology, and molecular biology. An overview of the current modules and their learning outcomes are discussed, as are assessment, dissemination, and sustainability strategies for K-12 and college-level curriculum. Copyright © 2012 Elsevier Inc. All rights reserved.

Science Art: Projects and Activities That Teach Science Concepts and Develop Process Skills. Grades 2-4.

ERIC Educational Resources Information Center

Schecter, Deborah

The activities in this collection are designed to help teachers bring the worlds of science and art into the classroom. Each activity is both a hands-on science investigation and an art experience. As students create satisfying art projects, they utilize science skills such as observing, predicting, investigating, and communicating. The projects…

Elementary science education: Dilemmas facing preservice teachers

NASA Astrophysics Data System (ADS)

Sullivan, Sherry Elaine

Prospective teachers are involved in a process of induction into a culture of teaching that has rules, or codes of conduct for engaging in teaching practice. This same culture of teaching exists within a larger culture of schooling that also has values and norms for behaviors, that over time have become institutionalized. Teacher educators are faced with the challenging task of preparing preservice teachers to resolve dilemmas that arise from conflicts between the pressure to adopt traditional teaching practices of schooling, or to adopt inquiry-based teaching practices from their university methods classes. One task for researchers in teacher education is to define with greater precision what factors within the culture of schooling hinder or facilitate implementation of inquiry-based methods of science teaching in schools. That task is the focus of this study. A qualitative study was undertaken using a naturalistic research paradigm introduced by Lincoln and Guba in 1985. Participant observation, interviews, discourse analysis of videotapes of lessons from the methods classroom and written artifacts produced by prospective teachers during the semester formed the basis of a grounded theory based on inductive analysis and emergent design. Unstructured interviews were used to negotiate outcomes with participants. Brief case reports of key participants were also written. This study identified three factors that facilitated or hindered the prospective teachers in this research success in implementing inquiry-based science teaching in their field placement classrooms: (a) the culture of teaching/teacher role-socialization, (b) the culture of schooling and its resistance to change, and (c) the culture of teacher education, especially in regards to grades and academic standing. Some recommendations for overcoming these persistent obstacles to best practice in elementary science teaching include: (a) preparing prospective teachers to understand and cope with change processes, (b) to understand the nature of teaching and schooling, and (c) to understand the nature of teacher education itself through explicit discourse about these topics. In addition, development of greater partnerships among university faculty and schools though Partnership School models and other community-building efforts can afford prospective teachers more opportunities to enter the discourse; perhaps even as change agents.

The Science Teaching Fellows Program: A Model for Online Faculty Development of Early Career Scientists Interested in Teaching.

PubMed

Brancaccio-Taras, Loretta; Gull, Kelly A; Ratti, Claudia

2016-12-01

The American Society for Microbiology (ASM) has a history of providing a wide range of faculty development opportunities. Recently, ASM developed the Science Teaching Fellows Program (STF) for early career biologists and postdoctoral students to explore student-centered teaching and develop the skills needed to succeed in positions that have a significant teaching component. Participants were selected to STF through a competitive application process. The STF program consisted of a series of six webinars. In preparation for each webinar, participants completed a pre-webinar assignment. After each webinar, fellows practiced what they learned by completing a post-webinar assignment. In a survey used to assess the impact of STF, participants reported greater knowledge of the webinar-based instructional topics and a sense of being part of an educational community and were more confident about varied teaching methods.

The Development of Interdisciplinary Teaching Approaches among Pre-service Science and Mathematics Teachers

NASA Astrophysics Data System (ADS)

Miranda Martins, Dominique

This study sought to understand how a group of pre-service teachers in a combined secondary science and mathematics teaching methods course conceptualized and experienced interdisciplinary approaches to teaching. Although knowing how to plan interdisciplinary activities is an essential teaching practice in Quebec, these pre-service teachers faced many challenges during the process of learning to teach with this approach. By using two interdisciplinary frameworks (Nikitina, 2005; Boix Mansilla & Duraising, 2007), I qualitatively analyzed the development of the pre-service teachers' prior and emerging ideas about interdisciplinarity and their ability to plan interdisciplinary teaching activities. The provincial curriculum and issues related to time greatly shaped students' conceptions about interdisciplinarity in the classroom and constrained their ability to plan for and envision the enactment of interdisciplinary lessons in secondary science and mathematics classes. In addition, images of themselves as content-specialists, self-efficacy beliefs in relation to interdisciplinary teaching, and student learning as a source of teacher motivation emerged as key factors promoting or interrupting the development of interdisciplinary teaching approaches. Examination of these factors highlights the need for teacher-education programs to provide opportunities for pre-service teachers to explore how they see themselves as educators, increase their instructional self-efficacy beliefs, and motivate them to teach in an interdisciplinary fashion. Keywords: interdisciplinary teaching, student-teachers, curriculum, teacher-education program, self-efficacy, motivation.

Integration of basic sciences and clinical sciences in oral radiology education for dental students.

PubMed

Baghdady, Mariam T; Carnahan, Heather; Lam, Ernest W N; Woods, Nicole N

2013-06-01

Educational research suggests that cognitive processing in diagnostic radiology requires a solid foundation in the basic sciences and knowledge of the radiological changes associated with disease. Although it is generally assumed that dental students must acquire both sets of knowledge, little is known about the most effective way to teach them. Currently, the basic and clinical sciences are taught separately. This study was conducted to compare the diagnostic accuracy of students when taught basic sciences segregated or integrated with clinical features. Predoctoral dental students (n=51) were taught four confusable intrabony abnormalities using basic science descriptions integrated with the radiographic features or taught segregated from the radiographic features. The students were tested with diagnostic images, and memory tests were performed immediately after learning and one week later. On immediate and delayed testing, participants in the integrated basic science group outperformed those from the segregated group. A main effect of learning condition was found to be significant (p<0.05). The results of this study support the critical role of integrating biomedical knowledge in diagnostic radiology and shows that teaching basic sciences integrated with clinical features produces higher diagnostic accuracy in novices than teaching basic sciences segregated from clinical features.

Planting Seeds in Young Minds.

ERIC Educational Resources Information Center

Pugh, Ava F.; Dukes-Bevans, Lenell

1987-01-01

Provides some teaching tips for elementary teachers that are designed to enhance the natural interests of young children in science and help equip them with important science processing skills. Contains activities related to observation, classification, measurement, and communication. (TW)

Information processing psychology: A promising paradigm for research in science teaching

NASA Astrophysics Data System (ADS)

Stewart, James H.; Atkin, Julia A.

Three research paradigms, those of Ausubel, Gagné and Piaget, have received a great deal of attention in the literature of science education. In this article a fourth paradigm is presented - an information processing psychology paradigm. The article is composed of two sections. The first section describes a model of memory developed by information processing psychologists. The second section describes how such a model could be used to guide science education research on learning and problem solving.Received: 19 October 1981

Building Future Directions for Teacher Learning in Science Education

NASA Astrophysics Data System (ADS)

Smith, Kathy; Lindsay, Simon

2016-04-01

In 2013, as part of a process to renew an overall sector vision for science education, Catholic Education Melbourne (CEM) undertook a review of its existing teacher in-service professional development programs in science. This review led to some data analysis being conducted in relation to two of these programs where participant teachers were positioned as active learners undertaking critical reflection in relation to their science teaching practice. The conditions in these programs encouraged teachers to notice critical aspects of their teaching practice. The analysis illustrates that as teachers worked in this way, their understandings about effective science pedagogy began to shift, in particular, teachers recognised how their thinking not only influenced their professional practice but also ultimately shaped the quality of their students' learning. The data from these programs delivers compelling evidence of the learning experience from a teacher perspective. This article explores the impact of this experience on teacher thinking about the relationship between pedagogical choices and quality learning in science. The findings highlight that purposeful, teacher-centred in-service professional learning can significantly contribute to enabling teachers to think differently about science teaching and learning and ultimately become confident pedagogical leaders in science. The future of quality school-based science education therefore relies on a new vision for teacher professional learning, where practice explicitly recognises, values and attends to teachers as professionals and supports them to articulate and share the professional knowledge they have about effective science teaching practice.

Reframing Science Learning and Teaching: A Communities of Practice Approach

ERIC Educational Resources Information Center

Sansone, Anna

2018-01-01

Next Generation Science Standards encourage science instruction that offers not only opportunities for inquiry but also the diverse social and cognitive processes involved in scientific thinking and communication. This article gives an introduction to Lave and Wenger's (1991) communities of practice framework as a potential way of viewing…

Engineering Encounters: An Engineering Design Process for Early Childhood

ERIC Educational Resources Information Center

Lottero-Perdue, Pamela; Bowditch, Michelle; Kagan, Michelle; Robinson-Cheek, Linda; Webb, Tedra; Meller, Megan; Nosek, Theresa

2016-01-01

This column presents ideas and techniques to enhance your science teaching. This month's issue shares information about trying (again) to engineer an egg package. Engineering is an essential part of science education, as emphasized in the "Next Generation Science Standards" (NGSS Lead States 2013). Engineering practices and performance…

Talking Science: Developing a Discourse of Inquiry

ERIC Educational Resources Information Center

Hackling, Mark; Smith, Pru; Murcia, Karen

2010-01-01

A key principle of inquiry-based science education is that the process of inquiry must include opportunities for the exploration of questions and ideas, as well as reasoning with ideas and evidence. Teaching and learning Science therefore involves teachers managing a discourse that supports inquiry and students engaging in talk that facilitates…

Bug Talk: A Learning Module on Insect Communication

ERIC Educational Resources Information Center

Bergman, Daniel J.

2008-01-01

The study of insects (entomology) can be used to stimulate students' interest in science and nature. It can develop students' understanding of fundamental science concepts, awareness of interdisciplinary connections, and mastery of science process skills. This teaching module provides opportunities for middle school students (Grades 5-8) to learn…

BASIC Simulation Programs; Volumes I and II. Biology, Earth Science, Chemistry.

ERIC Educational Resources Information Center

Digital Equipment Corp., Maynard, MA.

Computer programs which teach concepts and processes related to biology, earth science, and chemistry are presented. The seven biology problems deal with aspects of genetics, evolution and natural selection, gametogenesis, enzymes, photosynthesis, and the transport of material across a membrane. Four earth science problems concern climates, the…

Testing Honey Bees' Avoidance of Predators

ERIC Educational Resources Information Center

Robinson, Jesse Wade; Nieh, James C.; Goodale, Eben

2012-01-01

Many high school science students do not encounter opportunities for authentic science inquiry in their formal coursework. Ecological field studies can provide such opportunities. The purpose of this project was to teach students about the process of science by designing and conducting experiments on whether and how honey bees (Apis mellifera)…

Truth in Packaging: Teaching Controversial Topics to Undergraduates in the Human Sciences.

ERIC Educational Resources Information Center

Fredericks, Marcel; Miller, Steven I.

1993-01-01

Argues that the behavioral or "human" sciences are fundamentally different in scope and intent from the natural sciences. Describes the use of controversial topics in undergraduate courses and provides a four-step process. Recommends using Karl Popper's falsification theory to help students think critically about issues. (CFR)

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…

Errors in Science and Their Treatment in Teaching Science

ERIC Educational Resources Information Center

Kipnis, Nahum

2011-01-01

This paper analyses the real origin and nature of scientific errors against claims of science critics, by examining a number of examples from the history of electricity and optics. This analysis leads to a conclusion that errors are a natural and unavoidable part of scientific process. If made available to students, through their science teachers,…

School Innovation in Science: A Model for Supporting School and Teacher Development

ERIC Educational Resources Information Center

Tytler, Russell

2007-01-01

"School Innovation in Science" represents a model, developed through working with more than 200 Victorian schools, to improve science teaching and learning. SIS works at the level of the science team and the teacher, providing resources to challenge and support the change process. Its emphasis is on strategic planning supported by a…

Psychology as an Evolving, Interdisciplinary Science: Integrating Science in Sensation and Perception from Fourier to Fluid Dynamics

ERIC Educational Resources Information Center

Ebersole, Tela M.; Kelty-Stephen, Damian G.

2017-01-01

This article outlines the theoretical rationale and process for an integrated-science approach to teaching sensation and perception (S&P) to undergraduate psychology students that may also serve as an integrated-science curriculum. The course aimed to introduce the interdisciplinary evolution of this psychological field irrespective of any…

Evaluation of the Knowledge of Science Teachers with Didactic Transposition Theory

ERIC Educational Resources Information Center

Atalar, Fatma Bulut; Ergun, Mustafa

2018-01-01

The quality of the process of teaching is related to the behaviors shown by the teacher and their capability. In cases where teachers who have different training are expected to teach the same topic, teachers may make some alterations in the topics in question. Turkish education system has teachers who have different training but teach the same…

Semantic Mistakes and Didactic Difficulties in Teaching the "Amount of Substance" Concept: A Useful Model

ERIC Educational Resources Information Center

Pekdag, Bulent; Azizoglu, Nursen

2013-01-01

Textbooks still have the distinction of being the most dominant teaching tool in science teaching. The manner in which a scientific concept is expressed in a textbook is of importance in the in-depth learning process of that concept. With this in mind, problems with expressing the "amount of substance" concept were reviewed in 15…

Our Practice, Their Readiness: Teacher Educators Collaborate to Explore and Improve Preservice Teacher Readiness for Science and Math Instruction

NASA Astrophysics Data System (ADS)

Steele, Astrid; Brew, Christine; Rees, Carol; Ibrahim-Khan, Sheliza

2013-02-01

Since many preservice teachers (PTs) display anxiety over teaching math and science, four PT educators collaborated to better understand the PTs' background experiences and attitudes toward those subjects. The research project provided two avenues for professional learning: the data collected from the PTs and the opportunity for collaborative action research. The mixed method study focused on: the relationship between gender and undergraduate major (science versus non-science) with respect to previous and current engagement in science and math, understanding the processes of inquiry, and learning outside the classroom. A field trip to a science center provided the setting for the data collection. From a sample of 132 PTs, a multivariate analysis showed that the science major of PTs explained most of the gender differences with respect to the PTs' attitudes toward science and mathematics. The process of inquiry is generally poorly interpreted by PTs, and non-science majors prefer a more social approach in their learning to teach science and math. The four educators/collaborators reflect on the impacts of the research on their individual practices, for example, the need to: include place-based learning, attend to the different learning strategies taken by non-science majors, emphasize social and environmental contexts for learning science and math, be more explicit regarding the processes of science inquiry, and provide out-of-classroom experiences for PTs. They conclude that the collaboration, though difficult at times, provided powerful opportunities for examining individual praxis.

Problems with German Science Education

NASA Astrophysics Data System (ADS)

Riess, Falk

The main problems of science (especially physics) teaching in Germany are students'' lack of interest and motivation in the subject, their poor understanding of scientific concepts, ideas, methods,and results, and their lack of comprehension of the social, political, and epistemological role of science. These circumstances result in a growing `scientific illiteracy'' of the population and adecline in democratic quality concerning decision making processes about scientific and technological projects. One means of improving this situation lies in the use of history and philosophy of science in science teaching. School science curricula and textbooks neglect almost completely the importance of history and philosophy of science. In this paper, the main empirical results concerning motivation and knowledge are given. Some examples from science curricula and textbooks are presented, and some of the few reform projects in Germany are listed. As a consequence a compensatory program is proposed in order to create the prerequisites for raising science education in Germany to an international standard.

The effect of electronic networking on preservice elementary teachers' science teaching self-efficacy and attitude towards science teaching

NASA Astrophysics Data System (ADS)

Mathew, Nishi Mary

Preservice elementary teachers' science teaching efficacy and attitude towards science teaching are important determinants of whether and how they will teach science in their classrooms. Preservice teachers' understanding of science and science teaching experiences have an impact on their beliefs about their ability to teach science. This study had a quasi-experimental pretest-posttest control group design (N = 60). Preservice elementary teachers in this study were networked through the Internet (using e-mail, newsgroups, listserv, world wide web access and electronic mentoring) during their science methods class and student practicum. Electronic networking provides a social context in which to learn collaboratively, share and reflect upon science teaching experiences and practices, conduct tele-research effectively, and to meet the demands of student teaching through peer support. It was hoped that the activities over the electronic networks would provide them with positive and helpful science learning and teaching experiences. Self-efficacy was measured using a 23-item Likert scale instrument, the Science Teaching Efficacy Belief Instrument, Form-B (STEBI-B). Attitude towards science teaching was measured using the Revised Science Attitude Scale (RSAS). Analysis of covariance was used to analyze the data, with pretest scores as the covariate. Findings of this study revealed that prospective elementary teachers in the electronically networked group had better science teaching efficacy and personal science teaching efficacy as compared to the non-networked group of preservice elementary teachers. The science teaching outcome expectancy of prospective elementary teachers in the networked group was not greater than that of the prospective teachers in the non-networked group (at p < 0.05). Attitude towards science teaching was not significantly affected by networking. However, this is surmised to be related to the duration of the study. Information about the experiences of the participants in this study was also collected through interview, and inventories. Findings from the interview data revealed that prospective teachers benefited from the interactions with peers, science mentors, and science methods instructors during student teaching. Students who did not have access to computers noted that time was a constraint in the use of the electronic networks.

How to link geography, cross-curricular approach and inquiry in science education at the primary schools

NASA Astrophysics Data System (ADS)

Karvánková, Petra; Popjaková, Dagmar

2018-05-01

Pupil research in school lessons in the sense of Inquiry-Based Education (IBE) is one of the constructivist approaches to education. Inquiry strengthens the positive approach of pupils to natural science subjects, encouraging them to study phenomena and processes taking place in the natural environment around them and use the acquired knowledge in their practical life. Geography as a school subject, due to the multidisciplinary nature of geography as a science, is close to natural sciences as well. This is because of the broadness of the subject of geographical studies, the complex (natural and cultural) landscape. The close links of geography to all cross-sectional themes make it a good support for teaching classical science subjects at schools such as mathematics, physics, chemistry or biology, environmental education. Moreover, the field teaching is one of the strong assets of the implementation of IBE in the school geography. Presented case study on the 'effect of noise on the surroundings' explores the facts mentioned above, in geography teaching. It verifies the pupils' knowledge and skills to adopt the basic principles of IBE in the practice. At the same time, it presents the concrete experiences how the children master the individual stages of IBE during the process of education.

Teaching socioscientific issues: classroom culture and students' performances

NASA Astrophysics Data System (ADS)

Tal, Tali; Kedmi, Yarden

2006-12-01

The "Treasures in the Sea: Use and Abuse" unit that deals with authentic socioscientific issues related to the Mediterranean was developed as part of a national effort to increase scientific literacy. The unit aimed to enhance active participation of the learners and encourage higher order thinking in class by applying teaching methods that reduce the unfamiliarity felt by students. This was expected through an explicit use of a variety of teaching and assessment-for-learning methods, suitable for Science for All students. Our main goal was to examine the culture of Science for All classes in which the unit was enacted. In order to address the main learning objectives, we monitored students' performances in tasks that required the higher order thinking skills of argumentation and value judgment, which are central constituents of decision-making processes. We show that while socioscientific issues were discussed in whole class and small group sessions, and students' argumentation improved, there is still a long way to go in applying a thinking culture in non-science major classes. We suggest that science teachers should shift from traditional content-based and value-free approach, to a sociocultural approach that views science as a community practice and the students as active participants in decision-making processes.

An analysis of the relationship between teachers' acquisition of physics content knowledge and their level of science teaching efficacy

NASA Astrophysics Data System (ADS)

Marion, Virginia Frances

1998-12-01

The goal of Project Inquiry, a two-year long multiphase study, was to transform the delivery of science instruction from a traditional, textbook driven delivery approach to a hands-on, minds-on, constructivist approach. Teachers from a midwestern urban school district were trained in constructivism while learning physics concepts and content through guided inquiry instruction in collaborative groups. The objectives aimed to increase teachers' content expertise and science teaching efficacy, as well as to have teachers become better facilitators of learning. Phase two of the three phases of Project Inquiry was the focus of this study. Fifty-seven teachers participated in Phase two, which began with an intense two week summer institute in 1995. A longitudinal time-series (OxOO), quasi-experimental research design was used to investigate the relationship between science teaching efficacy scores and gains in physics content knowledge. The data consisted of: (a) six sets of pre and post physics content knowledge test scores (electricity, magnetism, matter and balance); (b) three sets of STEBI-A (inservice), Science Teaching Efficacy Belief Instrument scores, a pre to post, pre to follow-up, and post to follow-up; and (c) demographic variables that were used as covariates, grade taught, years of experience, and postbaccalaureate training. Using the general linear model with an Alpha level of.05, and testing the hypothesized relationships, results indicated that although there were significant positive gains in content knowledge (p =.000) and science teaching efficacy (p =.000), the overall average gains in physics content knowledge were not predictive of gains in either Personal Science Teaching Efficacy or Science Outcome Expectancy. Post hoc analysis used individual content gain scores, in regression models that included the three covariates: grade taught, years of experience, and post baccalaureate training, to test the relationship between knowledge gains and efficacy gains. A series of interactions between significant content areas and the covariates was also run. Science Teaching Outcome Expectancy and Personal Science Teaching Efficacy showed different relationships with the predictor variables. Though gains in specific content areas were related to gains in Science Teaching Outcome Expectancy and Personal Science Teaching Efficacy, gains in Personal Science Teaching Efficacy were further modified by the covariates. These results may reflect not only a more complex relationship between content knowledge gain and Personal Science Teaching Efficacy but also the complex nature of the construct. Evaluation of the physics content knowledge tests revealed that the tests were not valid for evaluating 35 of the 37 identified learning objectives. Although the data did not render valid results, it does give insights into possible relationships that may exist given a more stringent investigation with a valid instrument to measure content knowledge gains. In addition, this study demonstrated the importance of considering the likelihood of interactions among a given set of variables and the covariates. The findings also suggest the possible value of considering the psychological factors associated with the change process when planning professional development programs.

Professional choices and teacher identities in the Science Teacher Education Program at EACH/USP

NASA Astrophysics Data System (ADS)

Dominguez, Celi Rodrigues Chaves; Viviani, Luciana Maria; Cazetta, Valéria; Guridi, Verónica Marcela; Faht, Elen Cristina; Pioker, Fabiana Curtopassi; Cubero, Josely

2015-12-01

In this article, we present results from a research project in which the main aim was to understand students' decision-making processes in choosing to become a teacher and to make sense of the relationships between this process and the formation of their identity as a teacher. The study was conducted with 39 students from the Science Teacher Education Program (LCN) at the São Paulo University (USP) School of Arts, Sciences, and Humanities (EACH) in Brazil while the students engaged in a supervised practical internship. The data used in this study was collected from narratives written by the students in which they provided their reasons for selecting the LCN program and for choosing a teaching career. The analysis showed several elements contributing to their decision making and the formation of their identities as teachers, including the nature of the undergraduate program, representational models of teaching/teachers, the possibility of being an agent for social transformation, and an affinity toward natural sciences and/or education. Findings from this research offer implications for improvement of the LCN program and suggestions for designing teacher education programs to include actions for improving the teaching career as a life project for new students.

The Use of Lego Technologies in Elementary Teacher Preparation

NASA Astrophysics Data System (ADS)

Hadjiachilleos, Stella; Avraamidou, Lucy; Papastavrou, Stavros

2013-10-01

The need to reform science teacher preparation programs has been pointed out in research (Bryan and Abell in J Res Sci Teach 36:121-140, 1999; Bryan and Atwater in Sci Educ 8(6):821-839, 2002; Harrington and Hathaway in J Teach Educ 46(4):275-284, 1995). Science teachers are charged with the responsibility of incorporating both cognitive and non-cognitive parameters in their everyday teaching practices. This often results in their reluctance to teach science because they often lack disciplinary and/or pedagogical expertise required to promote science learning. The purpose of this study is to propose an alternative instructional approach in which Lego vehicles were used as a tool to promote pre-service elementary teachers' development and to examine whether there are non-cognitive parameters that promote or obstruct them from using Lego Technologies as a teaching tool. The context of the study was defined by a teacher preparation program of a private university in a small Mediterranean country. A sample of 28 pre-service elementary teachers, working in five 5-6-member groups were involved in scientific inquiries, during which they had to use vehicles in order to solve scientific problems related to concepts such as gear functioning, force, and motion. The nature of their cognitive engagement in the scientific inquiry process, non-cognitive parameters contributing to their cognitive engagement, and the impact of their involvement in the process on their development were examined through qualitative analysis of pre- and post-inquiry interviews, presentations of their solutions to the scientific problems and of their personal reflective journals.

Learner Characteristics and Understanding Nature of Science. Is There an Association?

NASA Astrophysics Data System (ADS)

Çetinkaya-Aydın, Gamze; Çakıroğlu, Jale

2017-11-01

The purpose of this study was to investigate the possible associations between preservice science teachers' understanding of nature of science and their learner characteristics; understanding of nature of scientific inquiry, science teaching self-efficacy beliefs, metacognitive awareness level, and faith/worldview schemas. The sample of the current study was 60 3rd-year preservice science teachers enrolled in the Nature of Science and History of Science course. Using a descriptive and associational case study design, data were collected by means of different qualitative and quantitative questionnaires. Analysis of the data revealed that preservice science teachers' understanding of nature of science and nature of scientific inquiry were highly associated. Similarly, science teaching self-efficacy beliefs, metacognitive awareness levels, and faith/worldviews of the preservice science teachers were found to be significantly associated with their understanding of nature of science. Thus, it can be concluded that there might be other factors interfering with the learning processes of nature of science.

The IT in Secondary Science Book. A Compendium of Ideas for Using Computers and Teaching Science.

ERIC Educational Resources Information Center

Frost, Roger

Scientists need to measure and communicate, to handle information, and model ideas. In essence, they need to process information. Young scientists have the same needs. Computers have become a tremendously important addition to the processing of information through database use, graphing and modeling and also in the collection of information…

Enzyme Assay: An Investigative Approach to Enhance Science Process Skills

ERIC Educational Resources Information Center

Vartak, Rekha; Ronad, Anupama; Ghanekar, Vikrant

2013-01-01

Scientific investigations play a vital role in teaching and learning the process of science. An investigative task that was developed for pre-university students is described here. The task involves extraction of an enzyme from a vegetable source and its detection by biochemical method. At the beginning of the experiment, a hypothesis is presented…

Employing Inquiry-Based Computer Simulations and Embedded Scientist Videos to Teach Challenging Climate Change and Nature of Science Concepts

ERIC Educational Resources Information Center

Cohen, Edward Charles

2013-01-01

Design based research was utilized to investigate how students use a greenhouse effect simulation in order to derive best learning practices. During this process, students recognized the authentic scientific process involving computer simulations. The simulation used is embedded within an inquiry-based technology-mediated science curriculum known…

Elementary Science and Technology Teachers' Views on Problems Encountered in the Instructional Process

ERIC Educational Resources Information Center

Gecer, Aynur; Ozel, Ruhan

2012-01-01

This research aims to explore the problems that teacher have experienced their opinion towards effectives and and functionality of teaching-learning process of Primary Science and Technology curriculum started to be implemented in 2004-2005 academic year in Turkey. The qualitative research design is used in this study. Research data are collected…

Pedagogical perspectives and implicit theories of teaching: First year science teachers emerging from a constructivist science education program

NASA Astrophysics Data System (ADS)

Dias, Michael James

Traditional, teacher-centered pedagogies dominate current teaching practice in science education despite numerous research-based assertions that promote more progressive, student-centered teaching methods. Best-practice research emerging from science education reform efforts promotes experiential, collaborative learning environments in line with the constructivist referent. Thus there is a need to identify specific teacher education program designs that will promote the utilization of constructivist theory among new teachers. This study explored the learning-to-teach process of four first-year high school teachers, all graduates of a constructivist-based science education program known as Teacher Education Environments in Mathematics and Science (TEEMS). Pedagogical perspectives and implicit theories were explored to identify common themes and their relation to the pre-service program and the teaching context. Qualitative methods were employed to gather and analyze the data. In depth, semi-structured interviews (Seidman, 1998) formed the primary data for probing the context and details of the teachers' experience as well as the personal meaning derived from first year practice. Teacher journals and teaching artifacts were utilized to validate and challenge the primary data. Through an open-coding technique (Strauss & Corbin, 1990) codes, and themes were generated from which assertions were made. The pedagogical perspectives apparent among the participants in this study emerged as six patterns in teaching method: (1) utilization of grouping strategies, (2) utilization of techniques that allow the students to help teach, (3) similar format of daily instructional strategy, (4) utilization of techniques intended to promote engagement, (5) utilization of review strategies, (6) assessment by daily monitoring and traditional tests, (7) restructuring content knowledge. Assertions from implicit theory data include: (1) Time constraints and lack of teaching experience made inquiry teaching difficult to implement for the first year teachers in this study. (2) Commitment to teaching and supportive relationships at the school helped the first year teachers negotiate a satisfying role. (3) A congruence existed between the first-year teachers' implicit theories and the social/experiential design of TEEMS. This congruence represented a narrowing of the gap between educational theory and practice. Implications for science-teacher education highlight the potential for experiential program designs to narrow the gap between educational theory and practice.

The development of a model of culturally responsive science and mathematics teaching

NASA Astrophysics Data System (ADS)

Hernandez, Cecilia M.; Morales, Amanda R.; Shroyer, M. Gail

2013-12-01

This qualitative theoretical study was conducted in response to the current need for an inclusive and comprehensive model to guide the preparation and assessment of teacher candidates for culturally responsive teaching. The process of developing a model of culturally responsive teaching involved three steps: a comprehensive review of the literature; a synthesis of the literature into thematic categories to capture the dispositions and behaviors of culturally responsive teaching; and the piloting of these thematic categories with teacher candidates to validate the usefulness of the categories and to generate specific exemplars of behavior to represent each category. The model of culturally responsive teaching contains five thematic categories: (1) content integration, (2) facilitating knowledge construction, (3) prejudice reduction, (4) social justice, and (5) academic development. The current model is a promising tool for comprehensively defining culturally responsive teaching in the context of teacher education as well as to guide curriculum and assessment changes aimed to increase candidates' culturally responsive knowledge and skills in science and mathematics teaching.

Scientists researching teaching: Reforming science education and transforming practice

NASA Astrophysics Data System (ADS)

Weiss, Tarin Harrar

Reforming science education is a multidimensional and complex undertaking. Of extreme importance is transforming how teachers teach. Answering the equity call of reform initiatives requires focusing on the underlying values and beliefs guiding teacher action and the promotion of inclusive practices (Brickhouse, 2001; Harding, 1994; Eisenhart, Finkel, & Marion, 1995; Mayberry & Rees, 1999; Rodriguez, 1997). Reform efforts within the last decade are being directed at college level science courses. Course and pedagogical transformations are particularly aimed at increasing the numbers of females and persons of color in science and improving the education of preservice teachers. Facilitating transformations toward these goals at the individual and program level is challenging work. This study explores and describes the conditions of the teacher change process toward an inclusive pedagogy. Two science professors affiliated with a reform collaborative were the main participants of the research. The professors, in collaboration with the primary researcher, engaged in assisted action research that lead to the identification and descriptions of their context and practical teaching theories. Among the questions explored were: "How does placing the professor in a position to conduct an assisted action research project help to foster teacher change conditions?" "How do the practical theories guiding the professors' teaching foster or impede inclusionary practice?" "What necessary conditions of the teacher change process toward an inclusive pedagogy emerged from the study?". Using case study and ethnographic qualitative research strategies for data collection and analysis, this study affords a unique perspective through which to consider why and how science professors change their practice. Data indicated that the assisted action research strategy fostered the conditions of teacher change. In addition, findings revealed that the professors shared a teacher and curriculum centered teaching philosophy and an ethic of care and respect for their students that, in varying ways, both supported and impeded inclusive practice. Teacher change was heavily mediated by departmental contexts. Assertions are made about the necessary conditions of teacher change toward an inclusive pedagogy and implications for further research are explored.

The Impact of Inquiry Based Instruction on Science Process Skills and Self-Efficacy Perceptions of Pre-Service Science Teachers at a University Level Biology Laboratory

ERIC Educational Resources Information Center

Sen, Ceylan; Sezen Vekli, Gülsah

2016-01-01

The aim of this study is to determine the influence of inquiry-based teaching approach on pre-service science teachers' laboratory self-efficacy perceptions and scientific process skills. The quasi experimental model with pre-test-post-test control group design was used as an experimental design in this research. The sample of this study included…

Defining core elements and outstanding practice in Nutritional Science through collaborative benchmarking.

PubMed

Samman, Samir; McCarthur, Jennifer O; Peat, Mary

2006-01-01

Benchmarking has been adopted by educational institutions as a potentially sensitive tool for improving learning and teaching. To date there has been limited application of benchmarking methodology in the Discipline of Nutritional Science. The aim of this survey was to define core elements and outstanding practice in Nutritional Science through collaborative benchmarking. Questionnaires that aimed to establish proposed core elements for Nutritional Science, and inquired about definitions of " good" and " outstanding" practice were posted to named representatives at eight Australian universities. Seven respondents identified core elements that included knowledge of nutrient metabolism and requirement, food production and processing, modern biomedical techniques that could be applied to understanding nutrition, and social and environmental issues as related to Nutritional Science. Four of the eight institutions who agreed to participate in the present survey identified the integration of teaching with research as an indicator of outstanding practice. Nutritional Science is a rapidly evolving discipline. Further and more comprehensive surveys are required to consolidate and update the definition of the discipline, and to identify the optimal way of teaching it. Global ideas and specific regional requirements also need to be considered.

Working with the nature of science in physics class: turning ‘ordinary’ classroom situations into nature of science learning situations

NASA Astrophysics Data System (ADS)

Hansson, Lena; Leden, Lotta

2016-09-01

In the science education research field there is a large body of literature on the ‘nature of science’ (NOS). NOS captures issues about what characterizes the research process as well as the scientific knowledge. Here we, in line with a broad body of literature, use a wide definition of NOS including also e.g. socio-cultural aspects. It is argued that NOS issues, for a number of reasons, should be included in the teaching of science/physics. Research shows that NOS should be taught explicitly. There are plenty of suggestions on specific and separate NOS activities, but the necessity of discussing NOS issues in connection to specific science/physics content and to laboratory work, is also highlighted. In this article we draw on this body of literature on NOS and science teaching, and discuss how classroom situations in secondary physics classes could be turned into NOS-learning situations. The discussed situations have been suggested by secondary teachers, during in-service teacher training, as situations from every-day physics teaching, from which NOS could be highlighted.

An investigation of a professional development model in science education: A systems approach

NASA Astrophysics Data System (ADS)

Bell, Glenda Love

The Mathematics and Science Cooperative (MSEC), a four year longevity model of professional development education for in-service teachers, is closely aligned with the spirit and tenets of science for all. This partnership of a university, a school district, and a higher education coordinating board, seeks to promote and improve science and mathematics achievement for underserved and underrepresented populations. This study sought to explore how this model affects elementary in-service teachers' feelings of self-efficacy toward science and science teaching. Interactive Qualitative Research (IQR), a systems approach of natural inquiry, was used for this study. Theory is grounded in the data collected and analyzed through group processes. A core group of teachers, key teachers representing grades one through six and lead teachers the campus contact representatives, received professional development education from university professors in semi-monthly after school workshops and in a three week summer science institute held on-site. In this study, (N = 18) key and lead teachers participated in a focus group, a picture board exercise (a projective type exercise), interviews, and classroom observations. Within the system of the MSEC professional development model, cause and effect relationships among eleven phenomena were identified which had the greatest impact on the teachers' feelings of self-efficacy and science teaching practices. Changed teaching practices were indicated by inquiry-based science lessons with students as active learners. Five principles of self-efficacy: (1) efficacy; (2) goals setting; (3) values; (4) expectancy; and, (5) control beliefs were used to evaluate efficacy beliefs. Findings from the data collection and analysis identified two phenomena, the university instructional leadership role and teacher time commitments and time constraints, both internally and externally imposed, which seemed to have the greatest impact on elementary teachers' efficacy and science teaching practices. Provision of science materials and equipment and college level science content, process skills, and pedagogical skills knowledge facilitated by the university and the amount of time teachers chose to commit to professional development education work sessions and to the preparation and implementation of inquiry-based instruction in contrast to other professional and personal commitments were significant factors.

The relationship between school environment, preservice science teachers' science teaching self-efficacy, and their use of instructional strategies at teachers' colleges in Saudi Arabia

NASA Astrophysics Data System (ADS)

Alshalaan, Nasser A.

Studies indicate that many teachers have negative beliefs about science, which translates into low teacher efficacy, resulting in avoidance of science teaching or in ineffective science teaching behaviors. Highly efficacious teachers have been found to be more likely to use inquiry and student-centered teaching strategies, while teachers with a low sense of science-teaching efficacy are more likely to use teacher-directed strategies, such as didactic lectures and reading from the textbook (Czemiak, 1990). The purpose of this study was to investigate preservice science teachers' science-teaching self-efficacy changes and their correlation to teaching environment factors during the student teaching semester. Moreover, it explains how teaching environment factors and preservice teachers' science-teaching self-efficacy beliefs may relate to their use of teaching strategies in the science classroom during their student teacher training at teachers' colleges in Saudi Arabia. The population of this study is consisted of 184 middle and elementary preservice science teachers who were doing their student teaching at nine teachers' colleges (i.e., teachers' colleges of Riyadh, Dammam, Alrras, Almadinah, Alihsa, Jeddah, Makah, Altaief, and Abha) in Saudi Arabia during the spring semester of 2005. Three instruments were used to collect data for this study: (1) to measure science teaching self-efficacy, the researcher adapted the Science Teaching Efficacy Belief Instrument form B designed specifically for preservice teachers (STEBI-B); (2) to measure the school environment, the researcher adapted the Organizational Health Inventory (OHI), developed by Hoy, Tarter & Kottkamp (1991); and (3) to measure the type and frequency of instructional strategies that preservice science teachers use in the classroom, the researcher adapted the teaching practice subscale from The Local Systemic Change through Teacher Enhancement Science K-8 Teacher Questionnaire (Horizon Research, Inc., 2000). Descriptive statistics, simple correlation, t-test, multiple regression, and content analysis procedures were used to analyze research questions. Findings of this study revealed that both dimensions of teaching efficacy, PSTE and STOE, were increased significantly during the student teaching semester. Certain school factors were related to preservice science teachers' teaching efficacy and their use of instructional strategies. Only personal science teaching efficacy was found to affect preservice science teachers' use of instructional strategies. Implications for the findings of this study, as well as recommendations for future research, are discussed.

Teaching Psychology Students Computer Applications.

ERIC Educational Resources Information Center

Atnip, Gilbert W.

This paper describes an undergraduate-level course designed to teach the applications of computers that are most relevant in the social sciences, especially psychology. After an introduction to the basic concepts and terminology of computing, separate units were devoted to word processing, data analysis, data acquisition, artificial intelligence,…

School Improvement Model to Foster Student Learning

ERIC Educational Resources Information Center

Rulloda, Rudolfo Barcena

2011-01-01

Many classroom teachers are still using the traditional teaching methods. The traditional teaching methods are one-way learning process, where teachers would introduce subject contents such as language arts, English, mathematics, science, and reading separately. However, the school improvement model takes into account that all students have…

Teaching science vs. the apprentice model--do we really have the choice?

PubMed

Marckmann, G

2001-01-01

The debate about the appropriate methodology of medical education has been (and still is) dominated by the opposing poles of teaching science versus teaching practical skills. I will argue that this conflict between scientific education and practical training has its roots in the underlying, more systematic question about the conceptual foundation of medicine: how far or in what respects can medicine be considered to be a science? By analyzing the epistemological status of medicine I will show that the internal aim of medicine ("promoting health through the prevention and treatment of disease") differs from the internal aim of science ("the methodological and systematic acquisition of knowledge"). Therefore, medicine as a whole discipline should not be considered as a science. However, medicine can be conceptually and methodologically scientific in so much as it is based on scientific knowledge. There is evidence from cognitive science research that diagnostic reasoning not only relies on the application of scientific knowledge but also--especially in routine cases--on a process of pattern recognition, a reasoning strategy based on the memory of previously encountered patients. Hence, medical education must contain both: the imparting of scientific knowledge and the rich exposure to concrete cases during practical training. Hence, the question of teaching science vs. the apprentice model will not be "either-or" but rather "both--but in which proportion?"

Why I teach the controversy: using creationism to teach critical thinking

PubMed Central

Honey, P. Lynne

2015-01-01

Creationism and intelligent design are terms used to describe supernatural explanations for the origin of life, and the diversity of species on this planet. Many scientists have argued that the science classroom is no place for discussion of creationism. When I began teaching I did not teach creationism, as I focused instead on my areas of expertise. Over time it became clear that students had questions about creationism, and did not understand the difference between a scientific approach to knowledge and non-scientific approaches. This led me to wonder whether ignoring supernatural views allowed them to remain as viable “alternatives” to scientific hypotheses, in the minds of students. Also, a psychology class is an ideal place to discuss not only the scientific method but also the cognitive errors associated with non-science views. I began to explain creationism in my classes, and to model the scientific thought process that leads to a rejection of creationism. My approach is consistent with research that demonstrates that teaching content alone is insufficient for students to develop critical thinking and my admittedly anecdotal experience leads me to conclude that “teaching the controversy” has benefits for science students. PMID:26136700

Science Teaching: What Does It Mean?

ERIC Educational Resources Information Center

Tseitlin, Michael; Galili, Igal

2006-01-01

This study considers the relationship between science, science teaching and the philosophy of science perceiving these three cultural phenomena as a semantic triad. This approach presents science teaching as being a form of a scientific reflection. The relationship of science teaching to the philosophy of science is advocated to be essential,…

Using Primary Literature to Teach Science Literacy to Introductory Biology Students

PubMed Central

Krontiris-Litowitz, Johanna

2013-01-01

Undergraduate students struggle to read the scientific literature and educators have suggested that this may reflect deficiencies in their science literacy skills. In this two-year study we develop and test a strategy for using the scientific literature to teach science literacy skills to novice life science majors. The first year of the project served as a preliminary investigation in which we evaluated student science literacy skills, created a set of science literacy learning objectives aligned with Bloom’s taxonomy, and developed a set of homework assignments that used peer-reviewed articles to teach science literacy. In the second year of the project the effectiveness of the assignments and the learning objectives were evaluated. Summative student learning was evaluated in the second year on a final exam. The mean score was 83.5% (±20.3%) and there were significant learning gains (p < 0.05) in seven of nine of science literacy skills. Project data indicated that even though students achieved course-targeted lower-order science literacy objectives, many were deficient in higher-order literacy skills. Results of this project suggest that building scientific literacy is a continuing process which begins in first-year science courses with a set of fundamental skills that can serve the progressive development of literacy skills throughout the undergraduate curriculum. PMID:23858355

Science Alabama Course of Study. Bulletin 1988, No. 35.

ERIC Educational Resources Information Center

Alabama State Dept. of Education, Montgomery.

This document is an outline of concepts and skills that should be taught at each elementary grade level and for each secondary course in science. This document should be used in planning K-12 science curricula and should serve as a guide for teaching process skills. Separate formats are used for the Elementary Program in Science and the Secondary…

A Research-Informed Instructional Unit to Teach the Nature of Science to Pre-Service Science Teachers

ERIC Educational Resources Information Center

Aduriz-Bravo, Agustin; Izquierdo-Aymerich, Merce

2009-01-01

In this paper we discuss the foundations and process of design of a research-informed instructional unit aimed for pre-service science teacher education. The unit covers some key ideas on the nature of science (around methodology, theory change, scientific inference and explanation, values, gender issues) anchoring them in a well-known episode…

Using Process Drama to Enhance Pre-Service Teachers' Understanding of Science and Religion

ERIC Educational Resources Information Center

Pongsophon, Pongprapan

2010-01-01

I report an action research study that aimed at improving Thai pre-service teachers' understanding of the relationship between science and religion and at assisting them to respond to this issue in a science classroom. The participants were twelve post-grad students pursuing Master of Art in Teaching Science at Kasetsart University. They took a…

Emphasizing the History of Genetics in an Explicit and Reflective Approach to Teaching the Nature of Science: A Pilot Study

ERIC Educational Resources Information Center

Williams, Cody Tyler; Rudge, David Wÿss

2016-01-01

Science education researchers have long advocated the central role of the nature of science (NOS) for our understanding of scientific literacy. NOS is often interpreted narrowly to refer to a host of epistemological issues associated with the process of science and the limitations of scientific knowledge. Despite its importance, practitioners and…

Implementing Science-Technology-Society Approaches in Middle School Science Teaching

ERIC Educational Resources Information Center

Akcay, Hakan; Yager, Robert E.

2010-01-01

The National Science Education Standards emphasize a goal that students should achieve scientific literacy, which is defined as the knowledge and understanding of scientific concepts needed in daily living. Scientific literacy enables people to not only use scientific principles and processes in making personal decisions but also to participate in…

Probing the Natural World, Volume 1, Teachers Guide.

ERIC Educational Resources Information Center

Burkman, Ernest

This is the teaching guide for the first third of a coordinated science program for grades seven through nine. The materials have been prepared according to the following Intermediate Science Curriculum Study rationale: (1) science at the junior-high-school level should serve a general education function, and (2) both processes and concepts should…

Science: Standard Course of Study and Grade Level Competencies, K-12. [Revision].

ERIC Educational Resources Information Center

North Carolina State Dept. of Public Instruction, Raleigh.

This document was created to establish competency goals and objectives for teaching and learning science in North Carolina for grades K-12. It contains the concepts and theories, strands, skills, and processes upon which all science instruction should be based. In addition, the curriculum defines and illustrates the connections between the…

Preservice Elementary Teachers Increase Descriptive Science Vocabulary by Making Descriptive Adjective Object Boxes

ERIC Educational Resources Information Center

Rule, Audrey C.; Crisafulli, Sherry; DeCare, Heather; DeLeo, Tonya; Eastman, Keri; Farrell, Liz; Geblein, Jennifer; Gioia, Chelsea; Joyce, Ashley; Killian, Kali; Knoop, Kelly; LaRocca, Alison; Meyer, Katie; Miller, Julianne; Roth, Vicki; Throo, Julie; Van Arsdale, Jim; Walker, Malissa

2007-01-01

Descriptive vocabulary is needed for communication and mental processing of science observations. Elementary preservice teachers in a science methods class at a mid-sized public college in central New York State increased their descriptive vocabularies through a course assignment of making a descriptive adjective object box. This teaching material…

Cultural Emergence: Theorizing Culture in and from the Margins of Science Education

ERIC Educational Resources Information Center

Wood, Nathan Brent; Erichsen, Elizabeth Anne; Anicha, Cali L.

2013-01-01

This special issue of the Journal of Research in Science Teaching seeks to explore conceptualizations of culture that address contemporary challenges in science education. Toward this end, we unite two theoretical perspectives to advance a conceptualization of culture as a complex system, emerging from iterative processes of cultural bricolage,…

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…

Using Thinking Skills as a Bridge between ELA and Science Teaching Strategies

ERIC Educational Resources Information Center

Harris, Robin Lee

2008-01-01

This article presents five activities that demonstrate developing thinking skills in students, uses comparable ELA and science skills. The thinking skills of Blooms Taxonomy are the organizer. Skills and processes gleaned from NYS ELA and Science Standards included in the article are: categorizing, comparing, following procedures, sequencing,…

Possible reasons for low scientific literacy of Slovak students in some natural science subjects

NASA Astrophysics Data System (ADS)

Bellová, Renata; Melicherčíková, Danica; Tomčík, Peter

2018-04-01

Background: The results of international studies have concluded the low level of science literacy in natural science subjects of Slovak students. These studies also showed that this state can be positively influenced by various innovations, which are implemented into the teaching process of above-mentioned subjects.

Teaching Science Down on the Farm

ERIC Educational Resources Information Center

Hicks, Debbie

2016-01-01

Throughout the United Kingdom's (UK's) primary science curriculum, there are numerous opportunities for teachers to use the farming industry as a rich and engaging real-world context for science learning. Teachers can focus on the animals and plants on the farm as subjects for children to learn about life processes. They can turn attention…

Using Google Earth to Teach Plate Tectonics and Science Explanations

ERIC Educational Resources Information Center

Blank, Lisa M.; Plautz, Mike; Almquist, Heather; Crews, Jeff; Estrada, Jen

2012-01-01

"A Framework for K-12 Science Education: Practices, Crosscutting Concepts, and Core Ideas" emphasizes that the practice of science is inherently a model-building activity focused on constructing explanations using evidence and reasoning (NRC 2012). Because building and refining is an iterative process, middle school students may view this practice…

An Inservice Program for Elementary Teachers: Components, Instructional Procedures, and Evaluation.

ERIC Educational Resources Information Center

Horak, Willis J.; And Others

A description and evaluation of a year-long science in-service program for elementary teachers is provided. Consisting of three components, the program was designed to expand teachers' understandings of physics and chemistry concepts and processes and to encourage more science teaching and science activities in their classrooms. The on-campus…

Teaching Gifted Students Social Sciences in Grades Seven Through Nine.

ERIC Educational Resources Information Center

California State Dept. of Education, Sacramento. Office of Curriculum Services.

Intended for use by teachers, consultants and administrators, the booklet discusses social science instruction for gifted students in grades 7-9. An introductory section provides an overview of goals and parameters of the social sciences (psychology, sociology, and anthropology). The scientific research process is described in terms of five steps,…

Collaborative Lesson Hook Design in Science Teacher Education: Advancing Professional Practice

ERIC Educational Resources Information Center

McCauley, Veronica; Davison, Kevin; Byrne, Corinna

2015-01-01

This article documents the process of collaboratively developing lesson hook e-resources for science teachers to establish a community of inquiry and to strengthen the pedagogy of science teaching. The authors aim to illustrate how the development and application of strategic hooks can bridge situational interest and personal interest so that…

Exploring multiple intelligences theory in the context of science education: An action research approach

NASA Astrophysics Data System (ADS)

Goodnough, Karen Catherine

2000-10-01

Since the publication of Frames of Mind: The Theory in Practice, multiple intelligences, theory (Gardner, 1983) has been used by practitioners in a variety of ways to make teaching and learning more meaningful. However, little attention has been focused on exploring the potential of the theory for science teaching and learning. Consequently, this research study was designed to: (1) explore Howard Gardner's theory of multiple intelligences (1983) and its merit for making science teaching and learning more meaningful; (2) provide a forum for teachers to engage in critical self-reflection about their theory and practice in science education; (3) study the process of action research in the context of science education; and (4) describe the effectiveness of collaborative action research as a framework for teacher development and curriculum development. The study reports on the experiences of four teachers (two elementary teachers, one junior high teacher, and one high school teacher) and myself, a university researcher-facilitator, as we participated in a collaborative action research project. The action research group held weekly meetings over a five-month period (January--May, 1999). The inquiry was a qualitative case study (Stake, 1994) that aimed to understand the perspectives of those directly involved. This was achieved by using multiple methods to collect data: audiotaped action research meetings, fieldnotes, semi-structured interviews, journal writing, and concept mapping. All data were analysed on an ongoing basis. Many positive outcomes resulted from the study in areas such as curriculum development, teacher development, and student learning in science. Through the process of action research, research participants became more reflective about their practice and thus, enhanced their pedagogical content knowledge (Shulman, 1987) in science. Students became more engaged in learning science, gained a greater understanding of how they learn, and experienced a science curriculum that was more relevant and personalized. In addition, the action research process provided a feasible and effective forum for both curriculum development and professional development.

Using process drama to enhance pre-service teachers' understanding of science and religion

NASA Astrophysics Data System (ADS)

Pongsophon, Pongprapan

2010-03-01

I report an action research study that aimed at improving Thai pre-service teachers' understanding of the relationship between science and religion and at assisting them to respond to this issue in a science classroom. The participants were twelve post-grad students pursuing Master of Art in Teaching Science at Kasetsart University. They took a course, Philosophy of Science, taught by the researcher in Semester A, academic year 2007. Process drama is the teaching strategy employed. The students were fully engaged in the process drama; doing research, producing, distributing, and criticizing the drama. Focus group, student journal, and observation were used to gather the data and the data was analyzed using qualitative analysis techniques. The focus groups revealed that the drama could help students reflect on the complexity and sensitivity of the issue. They found there was no inherent conflict between science and religion since they answered different questions and used different methods to achieve their results. However, the conflicts occurred when people were not aware of the basic differences between the two so they justified one on the basis of purpose and method of one another. The pre-service teachers also found consistency between science and Buddhism. They thought that the teachers of science should respond to the conflicts in a respectful, compromising, and neutral manner.[InlineMediaObject not available: see fulltext.

Problems Encountered in Teaching/Learning Integrated Photosynthesis: A Case of Ineffective Pedagogical Practice?

ERIC Educational Resources Information Center

Panijpan, Bhinyo; Ruenwongsa, Pintip; Sriwattanarothai, Namkang

2008-01-01

In this article we recount our experiences of teaching photosynthesis in an integrated way to secondary school students and teachers, science undergraduates and postgraduates. Conceptual questions were posed to investigate learners' fundamental understanding of simple light-dependent and light-independent processes taught to most students at…

CD-ROM Integration Peaks Student Interest in Inquiry.

ERIC Educational Resources Information Center

O'Bannon, Blanche

1997-01-01

Discussion of learning processes examines past educational practices and considers how CD-ROM technology can impact teaching and learning. A lesson plan for elementary school science that uses a CD-ROM encyclopedia is presented that includes instructional goals, performance objectives, teaching and learning activities, and assessment methods.…

Investigating Pre-Service Gifted Education Teachers' Self-Efficacy toward Science Teaching and Scientific Attitudes

ERIC Educational Resources Information Center

Camci-Erdogan, Sezen

2015-01-01

Problem Statement: Education of gifted has attracted attention for a few decades. Components of gifted education environments like identification, differentiation of teaching processes, social-emotional characteristics of gifted students and educating teachers of gifted students etc. have been studied in different studies. Gifted students have…

Teaching: A Reflective Process

ERIC Educational Resources Information Center

German, Susan; O'Day, Elizabeth

2009-01-01

In this article, the authors describe how they used formative assessments to ferret out possible misconceptions among middle-school students in a unit about weather-related concepts. Because they teach fifth- and eighth-grade science, this assessment also gives them a chance to see how student understanding develops over the years. This year they…

Early childhood teachers' self-efficacy toward teaching science: Outcomes of professional development

NASA Astrophysics Data System (ADS)

Clark, Sarah

The teaching of science in the early childhood classrooms has slowly been decreasing. As the years have passed, the subject of science has been put on the backburner while mathematics and language arts have taken center stage in the educational system. Early childhood teachers need to find ways to integrate science with other subjects in order to ensure children are receiving a well-rounded and full education. The purpose of this study was to determine the effectiveness of professional development on teachers' efficacy in teaching science. Volunteer teachers completed the Weisgram and Bigler scale (TWBS) pre and post training, in order to determine their self-efficacy toward teaching science, they also completed pre- and post- concept maps about their knowledge of teaching science, and a demographic questionnaire. Findings indicate the training provided was effective in increasing teachers' knowledge of teaching science. Teachers who had an increase in science teaching knowledge were also found to feel more efficacious about teaching science after completing the training and an academic year of implementing science lessons in their classrooms. There was not a relationship between teacher demographics and their science-teaching efficacy. This means that the demographics of participants in this study were not influential on teachers' efficacy, but professional development workshops enabled teachers to gain more knowledge about teaching as well as increase their efficacy about teaching science.

Quality Teaching in Science: an Emergent Conceptual Framework

NASA Astrophysics Data System (ADS)

Jordens, J. Zoe; Zepke, Nick

2017-09-01

Achieving quality in higher education is a complex task involving the interrelationship of many factors. The influence of the teacher is well established and has led to some general principles of good teaching. However, less is known about the extent that specific disciplines influence quality teaching. The purposes of the paper are to investigate how quality teaching is perceived in the sciences and from these perceptions to develop for discussion a framework for teaching practice in the sciences. A New Zealand study explored the views of national teaching excellence award winners in science on quality teaching in undergraduate science. To capture all possible views from this expert panel, a dissensus-recognising Delphi method was used together with sensitising concepts based on complexity and wickedity. The emergent conceptual framework for quality teaching in undergraduate science highlighted areas of consensus and areas where there were a variety of views. About the purposes of science and its knowledge base, there was relative consensus, but there was more variable support for values underpinning science teaching. This highlighted the complex nature of quality teaching in science. The findings suggest that, in addition to general and discipline-specific influences, individual teacher values contribute to an understanding of quality in undergraduate science teaching.

The effects of a new constructivist science curriculum (PIPS) for prospective elementary teachers

NASA Astrophysics Data System (ADS)

Liang, Ling L.

This study examines the effectiveness of a new constructivist curriculum model (Powerful Ideas in Physical Science, PIPS) in promoting preservice teachers' understanding of science concepts, in fostering a learning environment supporting conceptual change, and in improving preservice teachers' attitudes toward science as well as their science teaching efficacy beliefs. The PIPS curriculum model integrates a conceptual change perspective with a hands-on, inquiry-based approach and other promising effective teaching strategies such as cooperative learning. Three instructors each taught one class section using the PIPS and one using the existing curriculum for an introductory science course. Their students were 121 prospective elementary teachers at a large mid-western university. ANCOVA and Repeated Measures Analyses of Variance were performed to analyze the scores on concept tests and attitude surveys. Data from videotaped observations of lab sessions and interviews of prospective teachers and their instructors were analyzed by employing a naturalistic inquiry method to get insights into the process of science learning and teaching for the prospective teachers. The interpretations were made based on the findings that could be corroborated by both methodologies. For the twelve prospective teachers interviewed, it was found that the PIPS model was more effective in promoting conceptual understanding and positive attitudes toward science learning for those with lower past science performance. The PIPS approach left more room for self-reflection on the development of understanding of science concepts in contrast to the lecture-lab type teaching. Factors that might have influenced the teacher trainees' attitudes and beliefs about learning and teaching science were identified and discussed. It was also found that better cooperative learning and a more supportive learning environment have been promoted in the PIPS classrooms. However, the differential treatment effects on learning outcomes for all participants of the study, as measured by the paper-pencil instruments, were not statistically significant. Both students' and instructors' perspectives of the PIPS approach are presented in the study. Limitations of the present study as well as recommendations for future revision of the PIPS curriculum and effective implementation of the constructivist teaching in general, are also included.

Supporting Teachers Learning Through the Collaborative Design of Technology-Enhanced Science Lessons

NASA Astrophysics Data System (ADS)

Kafyulilo, Ayoub C.; Fisser, Petra; Voogt, Joke

2015-12-01

This study used the Interconnected Model of Professional Growth (Clarke & Hollingsworth in Teaching and Teacher Education, 18, 947-967, 2002) to unravel how science teachers' technology integration knowledge and skills developed in a professional development arrangement. The professional development arrangement used Technological Pedagogical Content Knowledge as a conceptual framework and included collaborative design of technology-enhanced science lessons, implementation of the lessons and reflection on outcomes. Support to facilitate the process was offered in the form of collaboration guidelines, online learning materials, exemplary lessons and the availability of an expert. Twenty teachers participated in the intervention. Pre- and post-intervention results showed improvements in teachers' perceived and demonstrated knowledge and skills in integrating technology in science teaching. Collaboration guidelines helped the teams to understand the design process, while exemplary materials provided a picture of the product they had to design. The availability of relevant online materials simplified the design process. The expert was important in providing technological and pedagogical support during design and implementation, and reflected with teachers on how to cope with problems met during implementation.

The Science Teaching Fellows Program: A Model for Online Faculty Development of Early Career Scientists Interested in Teaching†

PubMed Central

Brancaccio-Taras, Loretta; Gull, Kelly A.; Ratti, Claudia

2016-01-01

The American Society for Microbiology (ASM) has a history of providing a wide range of faculty development opportunities. Recently, ASM developed the Science Teaching Fellows Program (STF) for early career biologists and postdoctoral students to explore student-centered teaching and develop the skills needed to succeed in positions that have a significant teaching component. Participants were selected to STF through a competitive application process. The STF program consisted of a series of six webinars. In preparation for each webinar, participants completed a pre-webinar assignment. After each webinar, fellows practiced what they learned by completing a post-webinar assignment. In a survey used to assess the impact of STF, participants reported greater knowledge of the webinar-based instructional topics and a sense of being part of an educational community and were more confident about varied teaching methods. PMID:28101259

The Complementary Teaching of Physics and Music Acoustics - The Science of Sound

NASA Astrophysics Data System (ADS)

Milicevic, D.; Markusev, D.; Nesic, Lj.; Djordjevic, G.

2007-04-01

The results of some up-to-date solutions referring to teaching physics as a part of educational reform in Serbia, can be negative in a great deal to content and scope of teaching process which has existed so far. Basic course and characteristics of those solutions mean decreasing the number of classes of full-time physics teaching. Such tendencies are unjustified for many reasons, and the basic one is that physics is the foundation of understanding not only natural science, but also art and music (optics and acoustics respectively) and physical education (statics and dynamics). As a result of all this, there is necessity to have natural lessons of physics with the teachers of subjects such as music, art and physical education. The main objective of it is to conclude one good quality teaching cycle, and make student acquire new as well as revise their knowledge in different subjects.

Valuing the scholarship of integration and the scholarship of application in the academy for health sciences scholars: recommended methods

PubMed Central

Hofmeyer, Anne; Newton, Mandi; Scott, Cathie

2007-01-01

In the landmark 1990 publication Scholarship Reconsidered, Boyer challenged the 'teaching verses research debates' by advocating for the scholarship of discovery, teaching, integration, and application. The scholarship of discovery considers publications and research as the yardstick in the merit, promotion and tenure system the world over. But this narrow view of scholarship does not fully support the obligations of universities to serve global societies and to improve health and health equity. Mechanisms to report the scholarship of teaching have been developed and adopted by some universities. In this article, we contribute to the less developed areas of scholarship, i.e. integration and application. We firstly situate the scholarship of discovery, teaching, integration and application within the interprofessional and knowledge exchange debates. Second, we propose a means for health science scholars to report the process and outcomes of the scholarship of integration and application with other disciplines, decision-makers and communities. We conclude with recommendations for structural and process change in faculty merit, tenure, and promotion systems so that health science scholars with varied academic portfolios are valued and many forms of academic scholarship are sustained. It is vital academic institutions remain relevant in an era when the production of knowledge is increasingly recognized as a social collaborative activity. PMID:17535436

A New Virtual and Remote Experimental Environment for Teaching and Learning Science

NASA Astrophysics Data System (ADS)

Lustigova, Zdena; Lustig, Frantisek

This paper describes how a scientifically exact and problem-solving-oriented remote and virtual science experimental environment might help to build a new strategy for science education. The main features are: the remote observations and control of real world phenomena, their processing and evaluation, verification of hypotheses combined with the development of critical thinking, supported by sophisticated relevant information search, classification and storing tools and collaborative environment, supporting argumentative writing and teamwork, public presentations and defense of achieved results, all either in real presence, in telepresence or in combination of both. Only then real understanding of generalized science laws and their consequences can be developed. This science learning and teaching environment (called ROL - Remote and Open Laboratory), has been developed and used by Charles University in Prague since 1996, offered to science students in both formal and informal learning, and also to science teachers within their professional development studies, since 2003.

The effectiveness of problem-based learning on teaching the first law of thermodynamics

NASA Astrophysics Data System (ADS)

Tatar, Erdal; Oktay, Münir

2011-11-01

Background: Problem-based learning (PBL) is a teaching approach working in cooperation with self-learning and involving research to solve real problems. The first law of thermodynamics states that energy can neither be created nor destroyed, but that energy is conserved. Students had difficulty learning or misconceptions about this law. This study is related to the teaching of the first law of thermodynamics within a PBL environment. Purpose: This study examined the effectiveness of PBL on candidate science teachers' understanding of the first law of thermodynamics and their science process skills. This study also examined their opinions about PBL. Sample: The sample consists of 48 third-grade university students from the Department of Science Education in one of the public universities in Turkey. Design and methods: A one-group pretest-posttest experimental design was used. Data collection tools included the Achievement Test, Science Process Skill Test, Constructivist Learning Environment Survey and an interview with open-ended questions. Paired samples t-test was conducted to examine differences in pre/post tests. Results: The PBL approach has a positive effect on the students' learning abilities and science process skills. The students thought that the PBL environment supports effective and permanent learning, and self-learning planning skills. On the other hand, some students think that the limited time and unfamiliarity of the approach impede learning. Conclusions: The PBL is an active learning approach supporting students in the process of learning. But there are still many practical disadvantages that could reduce the effectiveness of the PBL. To prevent the alienation of the students, simple PBL activities should be applied from the primary school level. In order to overcome time limitations, education researchers should examine short-term and effective PBL activities.

Process-oriented guided inquiry learning strategy enhances students' higher level thinking skills in a pharmaceutical sciences course.

PubMed

Soltis, Robert; Verlinden, Nathan; Kruger, Nicholas; Carroll, Ailey; Trumbo, Tiffany

2015-02-17

To determine if the process-oriented guided inquiry learning (POGIL) teaching strategy improves student performance and engages higher-level thinking skills of first-year pharmacy students in an Introduction to Pharmaceutical Sciences course. Overall examination scores and scores on questions categorized as requiring either higher-level or lower-level thinking skills were compared in the same course taught over 3 years using traditional lecture methods vs the POGIL strategy. Student perceptions of the latter teaching strategy were also evaluated. Overall mean examination scores increased significantly when POGIL was implemented. Performance on questions requiring higher-level thinking skills was significantly higher, whereas performance on questions requiring lower-level thinking skills was unchanged when the POGIL strategy was used. Student feedback on use of this teaching strategy was positive. The use of the POGIL strategy increased student overall performance on examinations, improved higher-level thinking skills, and provided an interactive class setting.

A collaboration among health sciences schools to enhance faculty development in teaching.

PubMed

Sicat, Brigitte L; O'Kane Kreutzer, Kathy; Gary, Judy; Ivey, Carole K; Marlowe, Elizabeth P; Pellegrini, Joan M; Shuford, Veronica P; Simons, Dianne F

2014-06-17

Those involved in providing faculty development may be among only a few individuals for whom faculty development is an interest and priority within their work setting. Furthermore, funding to support faculty development is limited. In 2010, an interprofessional, self-formed, faculty learning community on faculty development in teaching was established to promote collaboration on faculty development initiatives that have transference to faculty members across disciplines and to share expertise and resources for wider impact. The organic structure and processes of the faculty learning community created an environment that has not only resulted in an increased offering of faculty development opportunities and resources across the health science campus, but has created a rich environment that combines the knowledge, innovation, and experience to promote collaborative efforts that benefit all. The background, structure, processes, successes, and lessons learned of the interprofessional faculty learning community on faculty development in teaching are described.

Use of Information Communication Technology by Early Career Science Teachers in Western Australia

ERIC Educational Resources Information Center

Dawson, Vaille

2008-01-01

Australia wide, all school systems are in the process of providing teachers with computers and there is an expectation that new teachers will possess the expertise to use them in their teaching. In addition to using computers for basic word processing and data manipulation, early-career science teachers need to be able to use a range of…

Attitudes of eighth-grade honors students toward the conceptual change methods of teaching science

NASA Astrophysics Data System (ADS)

Heide, Clifford Lee

1998-12-01

The study researched the attitude of eighth grade honors science students toward the steps of the conceptual change teaching method. The attitudes of 25 students in an honors 8th grade science class in the Greater Phoenix metropolitan area were assessed using a multi-method approach. A quantitative method (student survey) and a qualitative method (focus group) were triangulated for convergence. Since conceptual change is a relatively new reform teaching modality, the study assessed students' attitudes utilizing this method. Conceptual change teaching is characterized by connections between concepts and facts which are organized around key ideas. Knowledge connected through concepts is constantly revised and edited by students as they continue to learn and add new concepts. The results of this study produced evidence that the conceptual change method of teaching science and its six process steps have qualities that foster positive student attitude. The study demonstrated that students' attitudes toward science is positively influenced through the conceptual change teaching method by enabling students to: (1) choose problems and find solutions to those problems (student directed); (2) work together in large and small groups; (3) learn through student oral presentations; (4) perform hands-on laboratory experiences; (5) learn through conceptual understanding not memorization; (6) implement higher order learning skills to make connections from the lab to the real world. Teachers can use the information in the study to become aware of the positive and negative attitudes of students taught with the conceptual change method. Even if the conceptual change teaching strategy is not the modality utilized by an educator, the factors identified by this study that affect student attitude could be used to help a teacher design lesson plans that help foster positive student attitudes.

Changes in Preservice Elementary Teachers' Personal Science Teaching Efficacy and Science Teaching Outcome Expectancies: The Influence of Context

ERIC Educational Resources Information Center

Hechter, Richard P.

2011-01-01

This study investigated contextual changes in perceptions of science teaching self-efficacy through pre-, post- and retrospective administrations of the Science Teaching Expectancy Belief Instrument (STEBI-B) among preservice elementary teachers when exposed to a science teaching methods course. Findings revealed that the number of postsecondary…

Confronting Barriers to Teaching Elementary Science: After-School Science Teaching Experiences for Preservice Teachers

ERIC Educational Resources Information Center

Cartwright, Tina; Smith, Suzanne; Hallar, Brittan

2014-01-01

This qualitative study examines the transition of eight elementary preservice teachers into student teaching after participating in a science methods course that included a significant amount of teaching after-school science to elementary grade students. These eight participants had a chance to practice teaching inquiry-based science and to reform…

Secondary Science Teachers' and Students' Involvement in a Primary School Community of Science Practice: How It Changed Their Practices and Interest in Science

NASA Astrophysics Data System (ADS)

Forbes, Anne; Skamp, Keith

2016-02-01

MyScience is a primary science education initiative in which being in a community of practice is integral to the learning process. In this initiative, stakeholder groups—primary teachers, primary students and mentors—interact around the `domain' of `investigating scientifically'. This paper builds on three earlier publications and interprets the findings of the views of four secondary science teachers and five year 9 secondary science students who were first-timer participants—as mentors—in MyScience. Perceptions of these mentors' interactions with primary students were analysed using attributes associated with both `communities of practice' and the `nature of science'. Findings reveal that participation in MyScience changed secondary science teachers' views and practices about how to approach the teaching of science in secondary school and fostered primary-secondary links. Year 9 students positively changed their views about secondary school science and confidence in science through participation as mentors. Implications for secondary science teaching and learning through participation in primary school community of science practice settings are discussed.

Primary and Secondary School Science.

ERIC Educational Resources Information Center

Educational Documentation and Information, 1984

1984-01-01

This 344-item annotated bibliography presents overview of science teaching in following categories: science education; primary school science; integrated science teaching; teaching of biology, chemistry, physics, earth/space science; laboratory work; computer technology; out-of-school science; science and society; science education at…

Lessons Don't Have To Be Rocket Science!

ERIC Educational Resources Information Center

Morris, Andrew

2002-01-01

Describes an experimental program to teach adults who are curious about, but poorly educated in, science. Learning began with questions arising from that curiosity and discussion was encouraged by the teacher. Students felt empowered by the process and freely asked questions. (JOW)

Pre-service elementary science teaching self-efficacy and teaching practices: A mixed-methods, dual-phase, embedded case study

NASA Astrophysics Data System (ADS)

Sangueza, Cheryl Ramirez

This mixed-method, dual-phase, embedded-case study employed the Social Cognitive Theory and the construct of self-efficacy to examine the contributors to science teaching self-efficacy and science teaching practices across different levels of efficacy in six pre-service elementary teachers during their science methods course and student teaching experiences. Data sources included the Science Teaching Efficacy Belief Instrument (STEBI-B) for pre-service teachers, questionnaires, journals, reflections, student teaching lesson observations, and lesson debriefing notes. Results from the STEBI-B show that all participants measured an increase in efficacy throughout the study. The ANOVA analysis of the STEBI-B revealed a statistically significant increase in level of efficacy during methods course, student teaching, and from the beginning of the study to the end. Of interest in this study was the examination of the participants' science teaching practices across different levels of efficacy. Results of this analysis revealed how the pre-service elementary teachers in this study contextualized their experiences in learning to teach science and its influences on their science teaching practices. Key implications involves the value in exploring how pre-service teachers interpret their learning to teach experiences and how their interpretations influence the development of their science teaching practices.

Teachers' perceptions on primary science teaching

NASA Astrophysics Data System (ADS)

Kijkuakul, Sirinapa

2018-01-01

This qualitative research aimed to review what primary teachers think about how to teach science in rural school contexts. Three primary schools in Thailand were purposively chosen for this study. Eleven primary science teachers of these schools were the research participants. Questionnaires, interviews, and observations were implemented to reveal the primary school teachers' educational backgrounds, science teaching context, and need for self-driven professional development. Content and discourse analysis indicated that the non-science educational background and the science teaching context implied a need for self-driven professional development. The non-science educational background teachers were generally unfamiliar with the current national science curriculum, and that they would not be comfortable when the researcher observed their science teaching practice. They also believed that experimentation was the only one strategy for teaching science, and that the priority for their teaching support was teaching media rather than their understanding of scientific concepts or teaching strategies. As implication of this research, subsequent developments on science teacher profession in rural context, therefore, need to promote teachers' understandings of nature of science and technological and pedagogical content knowledge. In addition, they should be challenged to practice on critically participatory action research for academic growth and professional learning community.

A cultural historical theoretical perspective of discourse and design in the science classroom

NASA Astrophysics Data System (ADS)

Adams, Megan

2015-06-01

Flavio Azevedo, Peggy Martalock and Tugba Keser have initiated an important conversation in science education as they use sociocultural theory to introduce design based scenarios into the science classroom. This response seeks to expand Azevedo, Martalock and Keser's article The discourse of design- based science classroom activities by using a specific perspective within a sociocultural framework. Through using a cultural historical (Vygotsky in The history and development of higher mental functions, Plenum Press, New York, 1987) reading of design based activity and discourse in the science classroom, it is proposed that learning should be an integral part of these processes. Therefore, everyday and scientific concepts are explained and expanded in relation to Inventing Graphing and discourse presented in Azevedo, Martalock and Keser's article. This response reports on the importance of teacher's being explicit in relation to connecting everyday and scientific concepts alongside design based activity and related science concepts when teaching students. It is argued that explicit teaching of concepts should be instigated prior to analysis of discourse in the science classroom as it is only with experience and understanding these processes that students have the resources to call upon to argue like practicing scientists.

Not Driven by High-Stakes Tests: Exploring Science Assessment and College Readiness of Students from an Urban Portfolio Community High School

ERIC Educational Resources Information Center

Fleshman, Robin Earle

2017-01-01

This case study seeks to explore three research questions: (1) What science teaching and learning processes, perspectives, and cultures exist within the science classroom of an urban portfolio community high school? (2) In what ways does the portfolio-based approach prepare high school students of color for college level science coursework,…

Can the History of Science Contribute to Modelling in Physics Teaching? The Case of Galilean Studies and Mario Bunge's Epistemology

ERIC Educational Resources Information Center

Machado, Juliana; Braga, Marco Antônio Barbosa

2016-01-01

A characterization of the modelling process in science is proposed for science education, based on Mario Bunge's ideas about the construction of models in science. Galileo's "Dialogues" are analysed as a potentially fruitful starting point to implement strategies aimed at modelling in the classroom in the light of that proposal. It is…

"Because We Weren't Actually Teaching Them, We Thought They Weren't Learning": Primary Teacher Perspectives from the "My Science" Initiative

ERIC Educational Resources Information Center

Forbes, Anne; Skamp, Keith

2014-01-01

"MyScience" is a primary science education initiative in which being in a community of practice is integral to the learning process. This paper describes the ongoing journey to date of eight primary teachers from three primary schools who actively participated in "MyScience" over an extended period. Their views of interactions…

National Science Resources Center Project to Improve Science Teaching in Elementary Schools. Appendix C. Elementary Science Information Database

DTIC Science & Technology

1988-12-01

individual particles. They mix the powders with water and perform tests with heat, iodine, and vinegar in order to gain additional information about the...illusions ; light ; fermentation ; chromatography ; moon ; astronomy AN SCIENCE - A PROCESS APPROACH, PART G focuses on experimentation, incorporating all...skills ; flowers plants astronomy ; animals ; sensory perception ; vision ; optical illusions ; eyes ; density ; viscosity ; fermentation ; moon

Engineering Professional Development: Elementary Teachers' Self-efficacy and Sources of Self-efficacy

NASA Astrophysics Data System (ADS)

Webb, Donna Louise

Currently, STEM (science, technology, engineering, and mathematics) is a popular buzz word in P-12 education as it represents a means to advance American competitiveness in the global economy. Proponents of the engineering component of STEM advocate additional benefits in teaching engineering, such as its capacity to engage students in collaboration, and to apply critical thinking, systems thinking, negotiation, and communication skills to solve real-life contextual problems. Establishing a strong foundation of engineering knowledge at a young age will provide students with internal motivation as it taps into their curiosity toward how things work, and it also prepares them for secondary science courses. Successful STEM education is often constrained by elementary teachers' low perception of self-efficacy to teach science and engineering. Elementary teachers with low self-efficacy in science are more likely to spend less instructional time teaching science, which suggests that teachers with little to no training in engineering might avoid teaching this topic. Therefore, the purpose of this study was twofold: (a) to examine the effects of engineering professional development on elementary (K-6) teachers' content and pedagogical content knowledge (PCK) and perceptions of self-efficacy to teach engineering, and (b) to identify and explain sources influencing self-efficacy. Professional development was conducted in a metropolitan area in the Pacific Northwest. Results revealed that after the engineering professional development, teachers experienced statistically significant gains in content, PCK, and self-efficacy to teach engineering. Increases in self-efficacy were mainly attributed to mastery experiences and cultivation of a growth mindset by embracing the engineering design process.

Can the History of Science Contribute to Modelling in Physics Teaching?

NASA Astrophysics Data System (ADS)

Machado, Juliana; Braga, Marco Antônio Barbosa

2016-10-01

A characterization of the modelling process in science is proposed for science education, based on Mario Bunge's ideas about the construction of models in science. Galileo's Dialogues are analysed as a potentially fruitful starting point to implement strategies aimed at modelling in the classroom in the light of that proposal. It is argued that a modelling process for science education can be conceived as the evolution from phenomenological approaches towards more representational ones, emphasizing the role of abstraction and idealization in model construction. The shift of reference of theories—from sensible objects to conceptual objects—and the black-box models construction process, which are both explicitly presented features in Galileo's Dialogues, are indicated as highly relevant aspects for modelling in science education.

Initial Science Teacher Education in Portugal: The Thoughts of Teacher Educators About the Effects of the Bologna Process

NASA Astrophysics Data System (ADS)

Leite, Laurinda; Dourado, Luís; Morgado, Sofia

2016-12-01

Between the 1980s and 2007, Portugal used to have one-stage (5-year period) initial teacher education (ITE) programs. In 2007 and consistent with the Bologna process guidelines, Portuguese teacher education moved toward a two-stage model, which includes a 3-year undergraduate program of subject matter that leads to a licenciatura (or bachelor) degree and a 3-year professional master in the teaching of a subject. The way that teacher educators perceive the ITE programs effects the education of prospective teachers and consequently the future of science education. This paper aims at analyzing how science teacher educators perceived the changes that took place in this formal way of educating junior school (7th-9th grades) and high school (10th-12th grades) science teachers in Portugal, due to the implementation of the Bologna guidelines. To attain the objectives of the study, 33 science teacher educators including science specialists and science education specialists answered an open-ended online questionnaire, which focused on the strengths and weaknesses of the pre- and post-Bologna ITE programs, the overall quality of teacher education and measures for improving ITE. The results indicate that science teacher educators were quite happy with all of the ITE models, but they expressed the belief that both the science and the teaching practice components should be strengthened in the post-Bologna masters in teaching. Meanwhile, changes were introduced in Portuguese educational laws, and they proved to be consistent with the opinions of the participants. However, the professional development of teacher educators along with evidence-based ITE programs seems to be necessary conditions for overcoming the challenges that teacher education is still facing in Portugal and worldwide.

From the Voices of Kindergarten Teachers: Factors That Impact Decisions about When to Engage the Natural Curiosities of Their Students in Science

NASA Astrophysics Data System (ADS)

Hamilton, Frances A.

Students enter kindergarten as natural-born scientists, curious about the world around them. They enter middle school disliking science. Although implementing science in kindergarten has the potential to improve learning in other subjects in addition to science, it is not taught much in kindergarten. There are many reasons for this according to the literature. The purpose of the study is to gain insight into teachers' thinking as they decide when and how to engage their students in science, to better understand why student enjoyment of science fades in early grades; to contribute teachers' voices to the existing literature on teaching science in the early grades; and to investigate how teachers' science teaching methods align with current research regarding how students learn best. The key research question is "What are the factors that impact teachers' decisions about when to engage the natural curiosities of their students?" Broken down, the supporting research questions include: 1. What factors impact teacher decisions about when to teach science? 2. Under what conditions do teachers engage students' natural curiosities in science? 3. How do teachers describe engagement in their classrooms? This was a participatory action research study that used autoethnography, case studies, and grounded theory methods. Five co-researchers took part in the process. Purposeful sampling was used to select a range of kindergarten teachers in Tennessee and Alabama with different perspectives on teaching science--some from county systems and some from city systems; some using Alabama Math, Science, and Technology Initiative (AMSTI) kits and some not using kits. Co-researchers were selected during initial meetings, interviewed, collected journal entry data, and interviewed again at the culmination of the study. Interviews were transcribed and coded. Analysis included individual cases, each co-researcher, as well as across-case analysis. Results indicated that co-researchers did not have time to teach science many days due to requirements for teaching reading and math, and because of benchmark testing. Recommendations include integrating science concepts including hands-on explorations with reading and math. Ideas for future study include collecting data for a full year, as opposed to eight weeks, to see how factors change from beginning to end in one school year. The idea of learning during spontaneous interactions emerged from interviews with two co-researchers. Exploring spontaneous interactions is another area for future study.

Teaching energy using an integrated science approach

NASA Astrophysics Data System (ADS)

Poggi, Valeria; Miceli, Cristina; Testa, Italo

2017-01-01

Despite its relevance to all scientific domains, the debate surrounding the teaching of energy is still open. The main point remains the problems students have in understanding some aspects of the energy concept and in applying their knowledge to the comprehension of natural phenomena. In this paper, we present a research-based interdisciplinary approach to the teaching of energy in which the first and second laws of thermodynamics were used to interpret physical, chemical and biological processes. The contents of the three disciplines (physics, chemistry, biology) were reconstructed focusing on six basic aspects of energy (forms, transfer, transformation, conservation, degradation, and entropy) and using common teaching methodologies. The module was assessed with 39 secondary school students (aged 15-16) using a 30-question research instrument and a treatment/control group methodology. Analysis of students’ learning outcomes suggests a better understanding of the energy concept, supporting the effectiveness of an interdisciplinary approach in the teaching of energy in physics and science in general. Implications for the teaching of energy are briefly discussed.

Climate Change Education Today in K-12: What's Happening in the Earth and Space Science Classroom?

NASA Astrophysics Data System (ADS)

Holzer, M. A.; National Earth Science Teachers Association

2011-12-01

Climate change is a highly interdisciplinary topic, involving not only multiple fields of science, but also social science and the humanities. There are many aspects of climate change science that make it particularly well-suited for exploration in the K-12 setting, including opportunities to explore the unifying processes of science such as complex systems, models, observations, change and evolution. Furthermore, this field of science offers the opportunity to observe the nature of science in action - including how scientists develop and improve their understanding through research and debate. Finally, climate change is inherently highly relevant to students - indeed, students today will need to deal with the consequences of the climate change. The science of climate change is clearly present in current science education standards, both at the National level as well as in the majority of states. Nonetheless, a significant number of teachers across the country report difficulties addressing climate change in the classroom. The National Earth Science Teachers Association has conducted several surveys of Earth and space science educators across the country over the past several years on a number of issues, including their needs and concerns, including their experience of external influences on what they teach. While the number of teachers that report external pressures to not teach climate change science are in the minority (and less than the pressure to not teach evolution and related topics), our results suggest that this pressure against climate change science in the K-12 classroom has grown over the past several years. Some teachers report being threatened by parents, being encouraged by administrators to not teach the subject, and a belief that the "two sides" of climate change should be taught. Survey results indicate that teachers in religious or politically-conservative districts are more likely to report difficulties in teaching about climate change than in other areas of the country. This presentation will provide an overview of our most recent survey results on climate change education in the K-12 Earth and space science classroom, including highlighting some of the strategies that teachers are using to bring this critically important area of science to their students.

The effect of alternative clinical teaching experience on preservice science teachers' self-efficacy

NASA Astrophysics Data System (ADS)

Klett, Mitchell Dean

The purpose of this study was to compare different methods of alternative clinical experience; family science nights and Saturday science (authentic teaching) against micro-teaching (peer teaching) in terms of self-efficacy in science teaching and teaching self-efficacy. The independent variable, or cause, is teaching experiences (clinical vs. peer teaching); the dependent variable, or effect, is two levels of self-efficacy. This study was conducted at the University of Idaho's main campus in Moscow and extension campus in Coeur d'Alene. Four sections of science methods were exposed to the same science methods curriculum and will have opportunities to teach. However, each of the four sections were exposed to different levels or types of clinical experience. One section of preservice teachers worked with students in a Saturday science program. Another section worked with students during family science nights. The third worked with children at both the Saturday science program and family science nights. The last section did not have a clinical experience with children, instead they taught in their peer groups and acted as a control group. A pre-test was given at the beginning of the semester to measure their content knowledge, teaching self-efficacy and self-efficacy in science teaching. A post-test was given at the end of the semester to see if there was any change in self-efficacy or science teaching self-efficacy. Throughout the semester participants kept journals about their experiences and were interviewed after their alternative clinical teaching experiences. These responses were categorized into three groups; gains in efficacy, no change in efficacy, and drop in efficacy. There was a rise in teaching efficacy for all groups. The mean scores for personal teaching efficacy dropped for the Monday-Wednesday and Tuesday-Thursday group while the both Coeur D'Alene groups remained nearly unchanged. There was no significant change in the overall means for science teaching efficacy for any of the groups. Finally, the mean scores for all groups dropped for personal science teaching efficacy.

Pre-Service Science Teachers' Epistemological Beliefs and Teaching Reforms in Tanzania

ERIC Educational Resources Information Center

Tarmo, Albert

2016-01-01

In an effort to understand why recent initiatives to promote learner-centred pedagogy in science teaching made a little change in the actual teaching practices of science teachers, this study explored pre-service science teachers' beliefs about science knowledge and their teaching practices. Six pre-service science teachers were interviewed to…

The effect of guided inquiry-based instruction in secondary science for students with learning disabilities

NASA Astrophysics Data System (ADS)

Eliot, Michael H.

Students with learning disabilities (SWLDs) need to attain academic rigor to graduate from high school and college, as well as achieve success in life. Constructivist theories suggest that guided inquiry may provide the impetus for their success, yet little research has been done to support this premise. This study was designed to fill that gap. This quasi-experimental study compared didactic and guided inquiry-based teaching of science concepts to secondary SWLDs in SDC science classes. The study examined 38 students in four classes at two diverse, urban high schools. Participants were taught two science concepts using both teaching methods and posttested after each using paper-and-pencil tests and performance tasks. Data were compared to determine increases in conceptual understanding by teaching method, order of teaching method, and exposure one or both teaching methods. A survey examined participants' perceived self-efficacy under each method. Also, qualitative comparison of the two test formats examined appropriate use with SWLDs. Results showed significantly higher scores after the guided inquiry method on concept of volume, suggesting that guided inquiry does improve conceptual understanding over didactic instruction in some cases. Didactic teaching followed by guided inquiry resulted in higher scores than the reverse order, indicating that SWLDs may require direct instruction in basic facts and procedures related to a topic prior to engaging in guided inquiry. Also application of both teaching methods resulted in significantly higher scores than a single method on the concept of density, suggesting that SWLDs may require more in depth instruction found using both methods. No differences in perceived self-efficacy were shown. Qualitative analysis both assessments and participants' behaviors during testing support the use of performance tasks over paper-and-pencil tests with SWLDs. Implications for education include the use of guided inquiry to increase SWLDs conceptual understanding and process skills, while improving motivation and participation through hands-on learning. In addition, teachers may use performance tasks to better assess students' thought process, problem solving skills, and conceptual understanding. However, constructivist teaching methods require extra training, pedagogical skills, subject matter knowledge, physical resources, and support from all stakeholders.

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.

CSI Web Adventures: A Forensics Virtual Apprenticeship for Teaching Science and Inspiring STEM Careers

ERIC Educational Resources Information Center

Miller, Leslie; Chang, Ching-I; Hoyt, Daniel

2010-01-01

CSI: The Experience, a traveling museum exhibit and a companion web adventure, was created through a grant from the National Science Foundation as a potential model for informal learning. The website was designed to enrich and complement the exhibit by modeling the forensic process. Substantive science, real-world lab techniques, and higher-level…

Death Discussion in Science Read-Alouds: Cognitive, Sociolinguistic, and Moral Processes

ERIC Educational Resources Information Center

Oliveira, Alandeom W.; Reis, Giuliano; Chaize, Daniel O.; Snyder, Michele A.

2014-01-01

Little research has been conducted on how to address the complex topic of death when teaching science to children. The present paper addresses this issue by examining how three elementary teachers discuss the death of wild animals during science read-aloud sessions. Our findings reveal the variety of ways in which nonhuman death can be…

Assessment of a Constructivist-Motivated Mentoring Program to Enhance the Teaching Skills of Atmospheric Science Graduate Students

ERIC Educational Resources Information Center

Drossman, Howard; Benedict, Jim; McGrath-Spangler, Erica; Van Roekel, Luke; Wells, Kelley

2011-01-01

This article describes a collaborative mentoring program in which graduate students (fellows) from a university atmospheric science research department team-taught environmental science classes with professors in a liberal arts college. The mentorship allowed fellows to develop and test the effectiveness of curriculum based on the Process Oriented…

Possible Reasons for Low Scientific Literacy of Slovak Students in Some Natural Science Subjects

ERIC Educational Resources Information Center

Bellová, Renata; Melichercíková, Danica; Tomcík, Peter

2018-01-01

Background: The results of international studies have concluded the low level of science literacy in natural science subjects of Slovak students. These studies also showed that this state can be positively influenced by various innovations, which are implemented into the teaching process of above-mentioned subjects. Purpose: The aim of this study…

Focus on Process Skills. Learning in Science Project. Working Paper No. 7.

ERIC Educational Resources Information Center

Tasker, Ross; And Others

The first (exploratory) phase of the Learning in Science Project focused on science teaching/learning in the Form 1 to 4 level (ages 10 to 14) and sought to identify problems and difficulties in several areas. Provided in this paper are comments obtained during structured/unstructured interviews (from students, ex-students, teachers, headmasters,…

Determinism and Underdetermination in Genetics: Implications for Students' Engagement in Argumentation and Epistemic Practices

ERIC Educational Resources Information Center

Jiménez-Aleixandre, María Pilar

2014-01-01

In the last two decades science studies and science education research have shifted from an interest in products (of science or of learning), to an interest in processes and practices. The focus of this paper is on students' engagement in epistemic practices (Kelly in "Teaching scientific inquiry: Recommendations for research and…

The Effectiveness of Three Experiential Teaching Approaches on Student Science Learning in Fifth-Grade Public School Classrooms.

ERIC Educational Resources Information Center

Powell, Kristin; Wells, Marcella

2002-01-01

Compares the effects of three experiential science lessons in meeting the objectives of the Colorado model content science standards. Uses Kolb's (1984) experiential learning model as a framework for understanding the process by which students engage in learning when participating in experiential learning activities. Uses classroom exams and…

Science Lab Report Writing in Postsecondary Education: Mediating Teaching and Learning Strategies between Students and Instructors

NASA Astrophysics Data System (ADS)

Kalaskas, Anthony Bacaoat

The lab report is a genre commonly assigned by lab instructors and written by science majors in undergraduate science programs. The teaching and learning of the lab report, however, is a complicated and complex process that both instructors and students regularly contend with. This thesis is a qualitative study that aims to mediate the mismatch between students and instructors by ascertaining their attitudes, beliefs, and values regarding lab report writing. In this way, this thesis may suggest changes to teaching and learning strategies that lead to an improvement of lab report writing done by students. Given that little research has been conducted in this area thus far, this thesis also serves as a pilot study. A literature review is first conducted on the history of the lab report to delineate its development since its inception into American postsecondary education in the late 19th century. Genre theory and Vygotsky's zone of proximal development (ZPD) serve as the theoretical lenses for this thesis. Surveys and interviews are conducted with biology majors and instructors in the Department of Biology at George Mason University. Univariate analysis and coding are applied to elucidate responses from participants. The findings suggest that students may lack the epistemological background to understand lab reports as a process of doing science. This thesis also finds that both instructors and students consider the lab report primarily as a pedagogical genre as opposed to an apprenticeship genre. Additionally, although instructors were found to have utilized an effective piecemeal teaching strategy, there remains a lack of empathy among instructors for students. Collectively, these findings suggest that instructors should modify teaching strategies to determine and address student weaknesses more directly.

National board certification as professional development: What are teachers learning?

NASA Astrophysics Data System (ADS)

Lustick, David Scott

This study investigated the National Board for Professional Teaching Standards' (NBPTS) assessment process in order to identify, quantify, and substantiate possible learning outcomes from the participants. One hundred and twenty candidates for the Adolescent and Young Adult Science (AYA Science) Certificate were studied over a 2-year period using the recurrent institutional cycle research design. This quasi-experimental methodology allowed for the collection of both cross-sectional and longitudinal data insuring a good measure of internal validity regarding observed changes both between and within group means. Multiple assessors scored transcripts of structured interviews with each teacher using the NBPTS' assessment framework according to the 13 standards accomplished science teaching. The scores (aggregated to the group level) provided the quantitative evidence of teacher learning in this study. Significant changes in mean scores from pre to post are reported at the overall, standard group, and individual standard levels. Findings suggest that the intervention had an overall effect size of .475 upon candidates' understanding of science teaching related knowledge. More specifically, most learning was associated with the standards of Scientific Inquiry and Assessment. The results support the hypothesis that the certification process is an effective standards based professional learning opportunity. The learning outcomes discussed in this report (including the identification of Dynamic, Technical, and Deferred Learning categories) should inform debate between educational stakeholders regarding the financial and ideological support of National Board certification as a means of improving teacher quality, provide suggestions for the improvement of the assessment process, and contribute insight into the current divisive state of science education in public education.

The Effect of an Integrated Science and Mathematics Content-Based Course on Science and Mathematics Teaching Efficacy of Preservice Elementary Teachers

ERIC Educational Resources Information Center

Moseley, Christine; Utley, Juliana

2006-01-01

The purpose of this study was to determine the effect of an earth systems science course (integrated mathematics and science content) on preservice elementary teachers' mathematics and science teaching efficacy. Paired t-tests revealed that the personal mathematics and science teaching efficacy and science teaching outcome expectancy significantly…

Implementation of National Science Education Standards in suburban elementary schools: Teachers' perceptions and classroom practices

NASA Astrophysics Data System (ADS)

Khan, Rubina Samer

2005-07-01

This was an interpretive qualitative study that focused on how three elementary school science teachers from three different public schools perceived and implemented the National Science Education Standards based on the Reformed Teaching Observation Protocol and individual interviews with the teachers. This study provided an understanding of the standards movement and teacher change in the process. Science teachers who were experienced with the National Science Education Standards were selected as the subjects of the study. Grounded in the theory of teacher change, this study's phenomenological premise was that the extent to which a new reform has an effect on students' learning and achievement on standardized tests depends on the content a teacher teaches as well as the style of teaching. It was therefore necessary to explore how teachers understand and implement the standards in the classrooms. The surveys, interviews and observations provided rich data from teachers' intentions, reflections and actions on the lessons that were observed while also providing the broader contextual framework for the understanding of the teachers' perspectives.

Brewing Science

ERIC Educational Resources Information Center

Pelter, Michael

2006-01-01

Following the brewing process from grain to glass, this course uses the biological and chemical principles of brewing to teach science to the nonscience major. Discussion of the scientific aspects of malting, mashing, fermentation, and the making of different beer styles is complemented by laboratory exercises that use scientific methods to…

ERESE Professional Development in Science Education: A collaboration of scientists, teachers, and information technologists

NASA Astrophysics Data System (ADS)

Staudigel, H.; Helly, M.; Massel Symons, C.; Koppers, A.; Helly, J.; Miller, S.

2005-12-01

The Enduring Resources in Earth Science Education (ERESE) project promotes inquiry based teaching of plate tectonics through professional development and distribution of digital library objects in the National Science Digital Library network. The overall ERESE goal is to bridge the gap between the scientists and educators, and our experience has shown that much can be gained by establishing a close collaboration between all parties involved in earth science education, from high school student to teacher -educator, and scientist. These collaborations yield substantial gains in terms of effective educational approaches, contents selection, and to produce an authentic class room research experience. ERESE professional development workshops promote a model of inquiry-based teaching that keeps the educator as far in the background as possible, while empowering the student to carry out a maximally independent inquiry. Key components in this process are: (1) use of a well selected provocative phenomenon to promote student's curiosity and to start the inquiry process, (2) care in the student guidance towards selection and formulation of a researchable question, (3) the involvement of teachers and scientists, in a close collaboration (4) teaching resource development with a strong feed-back from professional development workshops and classroom practice, (5) integration of science inquiry resources on all expert levels providing an environment that allows continuous access to science information from the most basic to the full scale science level. We expanded ERESE resource development into a volcanology field class on Hawaii to produce a website and digital library contents including field reports, exercises and images and field data. We further expanded our resource development through the participation of three high school students in a three-week seagoing expedition to the Samoan Archipelago. The high school seniors maintained a live expedition website and they participated in all science activities. Their work impacted ERESE by the development of digital resources, and introducing peer - mentoring into the inquiry process.

From Students to Teachers: Investigating the Science Teaching Efficacy Beliefs and Experiences of Graduate Primary Teachers

NASA Astrophysics Data System (ADS)

Deehan, James; Danaia, Lena; McKinnon, David H.

2018-03-01

The science achievement of primary students, both in Australia and abroad, has been the subject of intensive research in recent decades. Consequently, much research has been conducted to investigate primary science education. Within this literature, there is a striking juxtaposition between tertiary science teaching preparation programs and the experiences and outcomes of both teachers and students alike. Whilst many tertiary science teaching programs covary with positive outcomes for preservice teachers, reports of science at the primary school level continue to be problematic. This paper begins to explore this apparent contradiction by investigating the science teaching efficacy beliefs and experiences of a cohort of graduate primary teachers who had recently transitioned from preservice to inservice status. An opportunity sample of 82 primary teachers responded to the science teaching efficacy belief instrument A (STEBI-A), and 10 graduate teachers provided semi-structured interview data. The results showed that participants' prior science teaching efficacy belief growth, which occurred during their tertiary science education, had remained durable after they had completed their teaching degrees and began their careers. Qualitative data showed that their undergraduate science education had had a positive influence on their science teaching experiences. The participants' school science culture, however, had mixed influences on their science teaching. The findings presented within this paper have implications for the direction of research in primary science education, the design and assessment of preservice primary science curriculum subjects and the role of school contexts in the development of primary science teachers.

How Often Do Early Childhood Teachers Teach Science Concepts? Determinants of the Frequency of Science Teaching in Kindergarten

ERIC Educational Resources Information Center

Saçkes, Mesut

2014-01-01

The purpose of the present study was to explore how often teachers of young children teach science concepts in kindergarten and examine the factors that influence the frequency of science teaching in early years. A theoretical model of the determinants of the frequency of science teaching in kindergarten was developed and tested using a…

Three Approaches to Teaching the Same Subject at Two Universities.

ERIC Educational Resources Information Center

Taricani, Ellen

In the fall of 1997, a senior level course was taught as an interdisciplinary class for learning the processes in food product development. The course implemented many new teaching methods and technologies. It was an effort between two departments: food science and agricultural economics. Students worked in teams with industry mentors who assisted…

Teaching Chemistry at Indira Gandhi National Open University

ERIC Educational Resources Information Center

Fozdar, Bharat I.; Kumar, Lalita S.

2006-01-01

The Open Distance Learning (ODL) concept is fast becoming popular all over the world and it has a lot of relevance for a highly populated country like India. However, the most important aspect of this type of teaching-learning process is establishment of the credibility especially when the laboratory based science programmes are delivered from…

The Development of Creative Thinking in Graduate Students Doing Scientific Research

ERIC Educational Resources Information Center

Truran, Peter

2016-01-01

The teaching of research methodology to graduate science students places an emphasis on scientific reasoning and on the generation and evaluation of evidence in support of research conclusions. Very little attention is paid to the teaching of scientific creativity, the processes for generation of new ideas, hypotheses, and theories. By contrast,…

Assessing Problem Solving Competence through Inquiry-Based Teaching in School Science Education

ERIC Educational Resources Information Center

Zervas, Panagiotis; Sotiriou, Sofoklis; Tiemann, Rüdiger; Sampson, Demetrios G.

2015-01-01

Nowadays, there is a consensus that inquiry-based learning contributes to developing students' scientific literacy in schools. Inquiry-based teaching strategies are promoted for the development (among others) of the cognitive processes that cultivate problem solving (PS) competence. The build up of PS competence is a central objective for most…

21st Century Pedagogical Content Knowledge and Science Teaching and Learning

ERIC Educational Resources Information Center

Slough, Scott; Chamblee, Gregory

2017-01-01

Technological Pedagogical Content Knowledge (TPACK) is a theoretical framework that has enjoyed widespread applications as it applies to the integration of technology in the teaching and learning process. This paper reviews the background for TPACK, discusses some of its limitations, and reviews and introduces a new theoretical framework, 21st…

Colorblind and Multicultural Ideologies Are Associated with Faculty Adoption of Inclusive Teaching Practices

ERIC Educational Resources Information Center

Aragón, Oriana R.; Dovidio, John F.; Graham, Mark J.

2017-01-01

Professional workshops aimed at increasing student diversity typically urge college-level science, technology, engineering, and math (STEM) educators to implement inclusive teaching practices. A model of the process by which educators adopt such practices, and the relationship between adoption and 2 ideologies of diversity is tested here. One…

Teaching Conceptually Oriented Social Science Education Programs in the Elementary School.

ERIC Educational Resources Information Center

Mahlios, Marc C.

Approaches to elementary social studies education that focus on concept and inquiry learning are outlined. The basic goal of the teacher in concept teaching is to aid the student in developing relationships among factual learning, conceptualization, and personal behavior. Learning activities should focus on the process concept (i.e., one that is…

Student Teachers Socialization Development by Teaching Blog: Reflections and Socialization Strategies

ERIC Educational Resources Information Center

Chou, Chun-Mei

2011-01-01

This study aims to probe into the cognitive sources and reflective content of student teachers' socialization, such as job proficiency, goals and values, school culture, and role regulation by "teaching blog". This paper utilizes eight student teachers of business, data processing, Chinese, English, science, and technology as subjects. Through…

Developing Pre-Service Teachers' Capacity in Teaching Science with Technology through Microteaching Lesson Study Approach

ERIC Educational Resources Information Center

Zhou, George; Xu, Judy; Martinovic, Dragana

2017-01-01

In order to effectively use technology in teaching, teacher candidates need to develop technology related pedagogical content knowledge through being engaged in a process of discussion, modeling, practice, and reflection. Based on the examination of teacher candidates' lesson plan assignments, observations of their microteaching performance, and…

The Science of Learning Meets the Art of Teaching

ERIC Educational Resources Information Center

Park, Beverley

2006-01-01

Through the discoveries of neuroscience, educators have moved beyond the intuitive knowledge of how and when learning occurs to a demonstrated scientific understanding of the learning process itself. These new understandings have a two-fold appeal to educators: they allow them to design better, research-based teaching practices, and they help them…

An Explorative Learning Approach to Teaching Clinical Anatomy Using Student Generated Content

ERIC Educational Resources Information Center

Philip, Christo T.; Unruh, Kenneth P.; Lachman, Nirusha; Pawlina, Wojciech

2008-01-01

Translating basic sciences into a clinical framework has been approached through the implementation of various teaching techniques aimed at using a patient case scenario to facilitate learning. These techniques present students with a specific patient case and lead the students to discuss physiological processes through analysis of provided data…

Become a Star: Teaching the Process of Design and Implementation of an Intelligent System

ERIC Educational Resources Information Center

Venables, Anne; Tan, Grace

2005-01-01

Teaching future knowledge engineers, the necessary skills for designing and implementing intelligent software solutions required by business, industry and research today, is a very tall order. These skills are not easily taught in traditional undergraduate computer science lectures; nor are the practical experiences easily reinforced in laboratory…

Spectral Signatures in the Classroom

ERIC Educational Resources Information Center

Huber, Thomas P.

2004-01-01

Ensuring that students understand the basis behind their geography/science courses is an essential part of their education. This article looks at an inexpensive and rigorous way of teaching students how to develop the needed data for remote sensing work. The procedure shows instructors how to build a system to teach students the process of…

An Integrated Approach to Teaching Students the Use of Computers in Science.

ERIC Educational Resources Information Center

Hood, B. James

1991-01-01

Reported is an approach to teaching the use of Macintosh computers to sixth, seventh, and eighth grade students within the context of a simplified model of scientific research including proposal, data collection and analyses, and presentation of findings. Word processing, graphing, statistical, painting, and poster software were sequentially…

Devious Lies: Adventures in Freelance Science Outreach

NASA Astrophysics Data System (ADS)

Fatland, D. R.

2003-12-01

Observations are given from two freelance science outreach projects undertaken by the author: Tutoring at-risk secondary students and teaching astronomy to 5th-7th graders in a camp retreat environment. Two recurring thematic challenges in these experiences are considered: First the 'Misperception Problem', the institutionalized chasm between the process of doing science and K-12 science education (wherein science is often portrayed as something distant and inaccessible, while ironically children are necessarily excellent scientists). And second the 'Engagement Problem', engaging a student's attention and energy by matching teaching material and--more importantly--teaching techniques to the student's state of development. The objective of this work is twofold: To learn how to address these two challenges and to empower the students in a manner independent of the scientific content of any particular subject. An underlying hypothesis is that confidence to problem solve (a desirable life-skill) can be made more accessible through a combination of problem solving by the student and seeing how others have solved seemingly impossible problems. This hypothesis (or agenda) compels an emphasis on critical thinking and raises the dilemma of reconciling non-directed teaching with very pointed conclusions about the verity of pseudo-science and ideas prevalent about science in popular culture. An interesting pedagogical found-object in this regard is the useful 'devious lie' which can encourage a student to question the assumption that the teacher (and by extension any professed expert) has the right answers.

Changes in Students' Views about Nature of Scientific Inquiry at a Science Camp

NASA Astrophysics Data System (ADS)

Leblebicioglu, G.; Metin, D.; Capkinoglu, E.; Cetin, P. S.; Eroglu Dogan, E.; Schwartz, R.

2017-12-01

Although nature of science (NOS) and nature of scientific inquiry (NOSI) are related to each other, they are differentiated as NOS is being more related to the product of scientific inquiry (SI) which is scientific knowledge whereas NOSI is more related to the process of SI (Schwartz et al. 2008). Lederman et al. (Journal of Research in Science Teaching, 51, 65-8, 2014) determined eight NOSI aspects for K-16 context. In this study, a science camp was conducted to teach scientific inquiry (SI) and NOSI to 24 6th and 7th graders (16 girls and 8 boys). The core of the program was guided inquiry in nature. The children working in small groups under guidance of science advisors conducted four guided-inquiries in the nature in morning sessions on nearby plants, animals, water, and soil. NOSI aspects were made explicit during and at the end of each inquiry session. Views about scientific inquiry (VASI) (Lederman et al. Journal of Research in Science Teaching, 51, 65-8, 2014) questionnaire was applied as pre- and post-test. The results of the study showed that children developed in all eight NOSI aspects, but higher developments were observed in "scientific investigations all begin with a question" and "there is no single scientific method," and "explanations are developed from data and what is already known" aspects. It was concluded that the science camp program was effective in teaching NOSI.

Changes in Students' Views about Nature of Scientific Inquiry at a Science Camp

NASA Astrophysics Data System (ADS)

Leblebicioglu, G.; Metin, D.; Capkinoglu, E.; Cetin, P. S.; Eroglu Dogan, E.; Schwartz, R.

2017-11-01

Although nature of science (NOS) and nature of scientific inquiry (NOSI) are related to each other, they are differentiated as NOS is being more related to the product of scientific inquiry (SI) which is scientific knowledge whereas NOSI is more related to the process of SI (Schwartz et al. 2008). Lederman et al. ( Journal of Research in Science Teaching, 51, 65-8, 2014) determined eight NOSI aspects for K-16 context. In this study, a science camp was conducted to teach scientific inquiry (SI) and NOSI to 24 6th and 7th graders (16 girls and 8 boys). The core of the program was guided inquiry in nature. The children working in small groups under guidance of science advisors conducted four guided-inquiries in the nature in morning sessions on nearby plants, animals, water, and soil. NOSI aspects were made explicit during and at the end of each inquiry session. Views about scientific inquiry (VASI) (Lederman et al. Journal of Research in Science Teaching, 51, 65-8, 2014) questionnaire was applied as pre- and post-test. The results of the study showed that children developed in all eight NOSI aspects, but higher developments were observed in "scientific investigations all begin with a question" and "there is no single scientific method," and "explanations are developed from data and what is already known" aspects. It was concluded that the science camp program was effective in teaching NOSI.

Influence of culture and language sensitive physics on science attitude enhancement

NASA Astrophysics Data System (ADS)

Morales, Marie Paz E.

2015-12-01

The study critically explored how culture and language sensitive curriculum materials in physics improve Pangasinan learners' attitude towards science. Their cultural dimensions, epistemological beliefs, and views on integration of culture and language in the teaching and learning process determined their cultural preference or profile. Design and development of culture and language sensitive curriculum materials in physics were heavily influenced by these learners' cultural preference or profile. Pilot-study using interviews and focus group discussions with natives of Pangasinan and document analysis were conducted to identify the culture, practices, and traditions integrated in the lesson development. Comparison of experimental participants' pretest and posttest results on science attitude measure showed significant statistical difference. Appraisal of science attitude enhancement favored the experimental group over the control group. Qualitative data deduced from post implementation interviews, focus group discussions, and journal log entries showed the same trend in favor of the experimental participants. The study revealed that culture and language integration in the teaching and learning process of physics concepts enabled students to develop positive attitude to science, their culture, and native language.

Exploring the Impact of Culture- and Language-Influenced Physics on Science Attitude Enhancement

NASA Astrophysics Data System (ADS)

Morales, Marie Paz E.

2016-02-01

"Culture," a set of principles that trace and familiarize human beings within their existential realities, may provide an invisible lens through which reality could be discerned. Critically explored in this study is how culture- and language-sensitive curriculum materials in physics improve Pangasinan learners' attitude toward science. Their cultural preference or profile defined their cultural dimensions, epistemological beliefs, and views on integration of culture and language in the teaching and learning processes. The culture- and language-influenced curriculum materials in physics were heavily influenced by Pangasinan learners' cultural preference or profile. Results of the experimental participants' pretest and posttest on science attitude measure, when compared, showed significant statistical difference. Assessment of science attitude enhancement favored the experimental group over the control group. Qualitative data gathered from postimplementation interviews, focus group discussions, and journal log entries indicated the same trend in favor of the experimental participants. The study yielded that culture and language integration in the teaching and learning processes of physics concepts allowed students to develop positive attitude to science, their culture, and native language.

Effectiveness of a Constructivist Approach to Science Instruction for Prospective Elementary Teachers

NASA Astrophysics Data System (ADS)

Liang, Ling L.; Gabel, Dorothy L.

2005-08-01

This study examines the effectiveness of a new constructivist curriculum model (Powerful Ideas in Physical Science) in improving prospective teachers’ understanding of science concepts, in fostering a learning environment supporting conceptual understanding, and in promoting positive attitudes toward learning and teaching science and chemistry in particular. A non-equivalent pretest post-test control-group design was employed. Analysis of covariance and repeated-measures analyses of variance were performed to analyze the scores on concept tests and attitude surveys. Data from videotaped observations of laboratory sessions and interviews of prospective teachers were analyzed by employing a naturalistic inquiry method to provide insights into the process of science learning and teaching for the teacher trainees. The interpretations were made based on the findings that could be corroborated by both methodologies. Conclusions and limitations of the present study as well as recommendations for future implementation of constructivist science curriculum in general are also included.

Fostering collaborative inquiries by prospective and practicing elementary and middle school teachers

NASA Astrophysics Data System (ADS)

van Zee, Emily; Lay, Diantha; Roberts, Deborah

2003-07-01

The purpose of this study was to document the perspectives and experiences of participants in a complex collaboration. Prospective teachers planned and conducted science lessons and small educational research projects with mentoring from teacher researchers who are science enthusiasts. These group investigations seemed to be effective in modifying the self-perceptions of many of the prospective teachers enrolled in a course on methods of teaching science in elementary school. According to responses on an informal evaluation at the end of the Spring 2000 group investigation, for example, most of the prospective teachers indicated that they perceived themselves to be more confident and more competent to teach science than at the beginning of the course; a few indicated they had already felt confident and competent. Common themes in the prospective teachers' responses indicated that they had learned about teaching science through inquiry, taking ownership of their own learning, researching while teaching, working in groups, and understanding themselves as learners and teachers. The teacher researchers also perceived themselves as benefiting from the collaborative process. Their responses to an e-mail questionnaire suggested that they found working with the prospective teachers to be stimulating and cheering. They enjoyed the discussions, appreciated the help with demanding activities, grew in their own knowledge about teaching and learning, and valued the opportunities for reflection. However, organizing the group investigation was complex, due to time issues, driving distances, school schedules, unexpected teacher responsibilities, and unpredictable weather.

Physics teaching in developing countries

NASA Astrophysics Data System (ADS)

Talisayon, V. M.

1984-05-01

The need for endogeneous learning materials that will relate physics to the student's culture and environment spurred countries like India, Thailand, The Philippines and Indonesia to develop their own physics curriculum materials and laboratory equipment. Meagre resources and widespread poverty necessitated the development of laboratory materials from everyday items, recycled materials and other low-cost or no-cost local materials. The process of developing learning materials for one's teaching-learning needs in physics and the search from within for solutions to one's problems contribute in no small measure to the development of self-reliance in physics teaching of a developing country. Major concerns of developing countries are food supply, livelihood, health, nutrition and growth of economy. At the level of the student and his family, food, health, and livelihood are also primary concerns. Many physics teaching problems can be overcome on a large scale, given political support and national will. In countries where national leadership recognises that science and technology developed is essential to national development and that science education in turn is crucial to science and technology development, scarce resources can be allocated to science education. In developing countries where science education receives little or no political support, the most important resource in the physics classroom is the physics teacher. A highly motivated and adequately trained teacher can rise above the constraining circumstances of paucity of material resources and government apathy. In developing countries the need is great for self-reliance in physics teaching at the country level, and more importantly at the teacher level.

The influence of field experiences on stages of concern and attitudes of preservice teachers toward science and science teaching

NASA Astrophysics Data System (ADS)

Strawitz, Barbara M.; Malone, Mark R.

The purpose of the study was to determine whether the field experience component of an undergraduate science methods course influenced teachers' concerns and attitudes toward science and science teaching. Age, grade-point average, openmindedness, and school assignment were examined as factors which might explain some of the variance in the dependent measures. A one-group pretest-posttest design was used. Students were administered the Teacher Concerns Questionnaire, the Science Teaching Attitude Scales, and the Rokeach Dogmatism Scale approximately eight weeks after the pretest. Results indicated that field experiences did not significantly change student concerns about teaching science but significantly improved student attitudes toward science and science teaching. Students differing in age, grade-point average, and openmindedness did not difer significantly in changes in concerns and changes in attitude toward science and science teaching. Students assigned to different schools differed significantly in changes in attitude toward science.

Impact Assessment on Teachers of Student-led, Inquiry-based Planetary Science Instruction in Grades 3-8

NASA Astrophysics Data System (ADS)

Bering, E. A., III; Slagle, E. M.; Carlson, C.; Nieser, K.

2015-12-01

The University of Houston is in the process of developing a flexible program that offers children an in-depth educational experience culminating in the design and construction of their own model Mars rover. The program is called the Mars Rover Model Celebration (MRC). It focuses on students, teachers in grades 3-8. Students design and build a model of a Mars rover to carry out a student selected science mission on Mars. A total of 195 Mars Rover teachers from the 2012-2013, 2013-2014, and 2014-2015 cohorts were invited to complete the Mars Rover Teacher Evaluation Survey. The survey was administered online and could be taken at the convenience of the participant. A total of 1300 students from the 2013-2014 and 2014-2015 cohort wereinvited to submit self-assessments of their participation in the program. Teachers were asked to rate their current level of confidence in their ability to teach specific topics within the Earth and Life Science realms, as well as their confidence in their ability to implement teaching strategies with their students. The majority of teachers (81-90%) felt somewhat to very confident in their ability to effectively teach concepts related to earth and life sciences to their students. In addition, many of the teachers felt that their confidence in teaching these concepts increased somewhat to quite a bit as a result of their participation in the MRC program (54-88%). The most striking increase in this area was the reported 48% of teachers who felt their confidence in teaching "Earth and the solar system and universe" increased "Quite a bit" as a result of their participation in the MRC program. The vast majority of teachers (86-100%) felt somewhat to very confident in their ability to effectively implement all of the listed teaching strategies. The most striking increases were the percentage of teachers who felt their confidence increased "Quite a bit" as a result of their participation in the MRC program in the following areas: "Getting students interested in and curious about science" (63%); "Teaching science as a co-inquirer with students" (56%); and "Continually find better ways to teach science" (59%). A key finding is that 354/365 responding students in the 2014-2015 cohort report substantial increase in science excitement owing to participation in the program.

Learning about Teaching: A Graduate Student's Perspective.

ERIC Educational Resources Information Center

Ambers, Rebecca K. R.

2002-01-01

Describes a seminar course on college science teaching that focuses on the importance of quality teaching, learning styles, teaching reading and writing skills, careers in science teaching, and female- and minority-friendly science. (Contains 14 references.) (YDS)

Teaching and learning the geological knowledge as a part of the science education general field

NASA Astrophysics Data System (ADS)

Aguirre-Pérez, Constancio

2010-05-01

Since the early 50s of last century the Teaching of Science has undergone a process of continuous development, (Gutiérrez, 1987; Aliberas, Gutierrez and Izquierdo, 1989) to become a scientific discipline largely accepted as such by many different universities worldwide. Besides, the proliferation of publications, magazines, conferences, symposia, meetings, and so on, proves this assertion. In these publications and meetings the Teaching of Science (or Science Education in more general terms) is addressed as a new field of research, teaching and educational innovation focused on the processes of teaching and learning of the experimental sciences (all of them: Physics, Chemistry, Biology and Geology). The study of this discipline is undertaken from different pedagogical, epistemological, psychological and sociological approaches. From this general perspective we can say that over the last two decades each of the sciences has developed specific characteristics so that, today, we could speak about specific didactics for each one of them. In the case of Geology (or Geoscience) Teaching there have been significant contributions from the following fields of research: the students' prior ideas (constructivist approach), the history of geology (as a subject-specific field) and from epistemology (Pedrinaci, E. 2000). The body of geoscience knowledge has an internal logic (as happens with the other science subjects) that allows us to organize the contents to teach, selecting, arranging and establishing proper relations between them. Still geology has a central, transverse, inter-and transdisciplinary character for its relationship with the other sciences. This character makes it appear as one of the disciplines with a huge potential to combine different methodologies of teaching and learning and different learning models already tested in the research field of Physics, Chemistry or Biology Education. Moreover, the most recent term coined for it "geosciences or earth and space sciences" emphasizes still further such character receiving the contributions of physics, chemistry, biology and environmental science in a kind of scientific-technical mixture which enriches the discipline itself and constitutes a fundamental basis for the evolution of knowledge in its broadest sense (Martinez Frias et al. 2008). In this paper we propose to show some of the experiences and didactic innovations in the teaching of geology found in the scientific literature in recent years and likewise part of an author's own work on the establishment of analogies on the time variable based on Carl Sagan's cosmic calendar. With these analogies we try to approximate geologic times to the understanding of high school and first university courses students (Aguirre-Perez, C. 2008) REFERENCES ALIBERAS, J. GUTIÉRREZ, R. and IZQUIERDO, M. (1989). La Didáctica de las Ciencias: Una empresa racional. Enseñanza de las Ciencias, 7 (3), pp. 227-284. GUTIÉRREZ, R. (1987). Psicología y aprendizaje de las Ciencias. El modelo de Ausubel. Enseñanza de las Ciencias, 5 (2), pp. 118-128. MARTÍNEZ FRÍAS, J. LUNAR, R. RODRÍGUEZ-LOSADA, J.A. EFF-DARWICH, A. and MADERO JARABO, J. (2008)"La Geología en la exploración planetaria (Geology inplanetary exploration). Geo-temas 10, pp. 1621-1624. PEDRINACI, E. (2000): La Enseñanza y el aprendizaje del conocimiento geológico. Didáctica de las Ciencias Experimentales. Teoría y Práctica de la Enseñanza de las ciencias, pp. 479-503. Ed. Marfil.

Being a Scientist While Teaching Science: Implementing Undergraduate Research Opportunities for Elementary Educators

NASA Astrophysics Data System (ADS)

Hock, Emily; Sharp, Zoe

2016-03-01

Aspiring teachers and current teachers can gain insight about the scientific community through hands-on experience. As America's standards for elementary school and middle school become more advanced, future and current teachers must gain hands-on experience in the scientific community. For a teacher to be fully capable of teaching all subjects, they must be comfortable in the content areas, equipped to answer questions, and able to pass on their knowledge. Hands-on research experiences, like the Summer Astronomy Research Experience at California Polytechnic University, pair liberal studies students with a cooperative group of science students and instructors with the goal of doing research that benefits the scientific community and deepens the team members' perception of the scientific community. Teachers are then able to apply the basic research process in their classrooms, inspire students to do real life science, and understand the processes scientists' undergo in their workplace.

Influencing Intended Teaching Practice: Exploring pre-service teachers' perceptions of science teaching resources

NASA Astrophysics Data System (ADS)

Cooper, Grant; Kenny, John; Fraser, Sharon

2012-08-01

Many researchers have identified and expressed concern over the state of science education internationally, but primary teachers face particular obstacles when teaching science due to their poor science background and low confidence with science. Research has suggested that exemplary resources, or units that work, may be an effective way to support primary teachers. This study explores the effect of one such resource on the intentions of pre-service primary teachers to teach science. The resource in question is Primary Connections, a series of learning resources produced by the Australian Academy of Science specifically designed for primary science. Evaluative studies of Primary Connections have indicated its efficacy with practising primary teachers but there is little evidence of its impact upon pre-service teachers. The purpose of this study was to investigate how effective these quality teaching resources were in influencing the intentions of primary pre-service teachers to teach science after they graduated. The theory of planned behaviour highlighted the linkage between the intentions of the pre-service teachers to teach science, and their awareness of and experiences with using Primary Connections during their education studies. This enabled key factors to be identified which influenced the intentions of the pre-service teachers to use Primary Connections to teach science after they graduate. The study also provided evidence of how quality science teaching resources can be effectively embedded in a teacher education programme as a means of encouraging and supporting pre-service teachers to teach science.

The Effects of Problem Solving Applications on the Development of Science Process Skills, Logical Thinking Skills and Perception on Problem Solving Ability in the Science Laboratory

ERIC Educational Resources Information Center

Seyhan, Hatice Güngör

2015-01-01

This study was conducted with 98 prospective science teachers, who were composed of 50 prospective teachers that had participated in problem-solving applications and 48 prospective teachers who were taught within a more researcher-oriented teaching method in science laboratories. The first aim of this study was to determine the levels of…

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…

Teaching Science as Science Is Practiced: Opportunities and Limits for Enhancing Preservice Elementary Teachers' Self-Efficacy for Science and Science Teaching

ERIC Educational Resources Information Center

Avery, Leanne M.; Meyer, Daniel Z.

2012-01-01

Science teaching in elementary schools, or the lack thereof, continues to be an area of concern and criticism. Preservice elementary teachers' lack of confidence in teaching science is a major part of this problem. In this mixed-methods study, we report the impacts of an inquiry-based science course on preservice elementary teachers' self-efficacy…

Let's Go Bananas.

ERIC Educational Resources Information Center

Brown, Helen; And Others

1995-01-01

Presents a hands-on primary science unit of activities designed to teach students concepts about bananas. Real bananas are used as students investigate and use the process skills of observation, measurement, and communication. Using bananas as a theme, science, mathematics, social studies, music, and writing are integrated into the curriculum of…

Investigating Omani Science Teachers' Attitudes towards Teaching Science: The Role of Gender and Teaching Experiences

ERIC Educational Resources Information Center

Ambusaidi, Abdullah; Al-Farei, Khalid

2017-01-01

A 30-item questionnaire was designed to determine Omani science teachers' attitudes toward teaching science and whether or not these attitudes differ according to gender and teaching experiences of teachers. The questionnaire items were divided into 3 domains: classroom preparation, managing hands-on science, and development appropriateness. The…

Minority Preservice Teachers' Conceptions of Teaching Science: Sources of Science Teaching Strategies

ERIC Educational Resources Information Center

Subramaniam, Karthigeyan

2013-01-01

This study explores five minority preservice teachers' conceptions of teaching science and identifies the sources of their strategies for helping students learn science. Perspectives from the literature on conceptions of teaching science and on the role constructs used to describe and distinguish minority preservice teachers from their mainstream…

Conceptions of Teaching Science Held by Novice Teachers in an Alternative Certification Program

ERIC Educational Resources Information Center

Koballa, Thomas R.; Glynn, Shawn M.; Upson, Leslie

2005-01-01

Case studies to investigate the conceptions of teaching science held by three novice teachers participating in an alternative secondary science teacher certification program were conducted, along with the relationships between their conceptions of science teaching and their science teaching practice. Data used to build the cases included the…

Information Technology in Science (ITS) Center for Teaching and Learning Environment Design Experiment Study for the Development of New Generation Leaders in Science Education

NASA Astrophysics Data System (ADS)

Herbert, B. E.; Schroeder, C.; Brody, S.; Cahill, T.; Kenimer, A.; Loving, C.; Schielack, J.

2003-12-01

The ITS Center for Teaching and Learning is a five-year NSF-funded collaborative effort to engage scientists and university and school or district-based science educators in the use of information technology to improve science teaching and learning at all levels. One assumption is 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 in science classrooms has been shown to help achieve this objective. As a design study that is -working toward a greater understanding of a -learning ecology", the research related to the creation and refinement of the ITS Centeres collaborative environment for professional development 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, 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. This presentation will discuss the results of the formative evaluation process that has moved the ITS Centeres 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). In particular, we will focus on the development of the ITS Centeres Project Teams, which create learning experiences over two summers focused on the exploration of 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 K-16 curriculum. Ongoing formative assessment of the Cohort I project teams led to a greater emphasis on participant exploration of authentic scientific questions and tighter integration of scientific explorations and development of participant inquiry projects.

Providing Context for Complexity: Using Infographics and Conceptual Models to Teach Global Change Processes

NASA Astrophysics Data System (ADS)

Bean, J. R.; White, L. D.

2015-12-01

Understanding modern and historical global changes requires interdisciplinary knowledge of the physical and life sciences. The Understanding Global Change website from the UC Museum of Paleontology will use a focal infographic that unifies diverse content often taught in separate K-12 science units. This visualization tool provides scientists with a structure for presenting research within the broad context of global change, and supports educators with a framework for teaching and assessing student understanding of complex global change processes. This new approach to teaching the science of global change is currently being piloted and refined based on feedback from educators and scientists in anticipation of a 2016 website launch. Global change concepts are categorized within the infographic as causes of global change (e.g., burning of fossil fuels, volcanism), ongoing Earth system processes (e.g., ocean circulation, the greenhouse effect), and the changes scientists measure in Earth's physical and biological systems (e.g., temperature, extinctions/radiations). The infographic will appear on all website content pages and provides a template for the creation of flowcharts, which are conceptual models that allow teachers and students to visualize the interdependencies and feedbacks among processes in the atmosphere, hydrosphere, biosphere, and geosphere. The development of this resource is timely given that the newly adopted Next Generation Science Standards emphasize cross-cutting concepts, including model building, and Earth system science. Flowchart activities will be available on the website to scaffold inquiry-based lessons, determine student preconceptions, and assess student content knowledge. The infographic has already served as a learning and evaluation tool during professional development workshops at UC Berkeley, Stanford University, and the Smithsonian National Museum of Natural History. At these workshops, scientists and educators used the infographic to highlight how their research and activities reinforce conceptual links among global change topics. Pre- and post-workshop assessment results and responses to questionnaires have guided the refinement of classroom activities and assessment tools utilizing flowcharts as models for global change processes.

Preparing College Students to Teach an Environmental Problem Solving Curriculum to Middle School Students

NASA Astrophysics Data System (ADS)

Powers, S. E.

2001-12-01

An NSF-funded project-based program was implemented by Clarkson University in 2000 to increase the interest and knowledge of middle school students in science, math and technology through the solution of an environmental problem that is relevant to their local school community. Clarkson students developed curricula for 7th and 8th grade science and technology classes and then worked with the middle school students throughout the year to reduce to transform solid waste into healthy soil for plant growth. The solution to this problem provided a vehicle to teach fundamental science and math content as well as the process of doing science and solving problems. Placing college science and engineering students in the classroom proved to be a great mechanism for engaging students in science topics and providing mentoring experiences that differ greatly from those that a practicing professional can provide. It is clear, however, that the students must be well prepared for this experience to maximize the benefits of university - school district partnership programs. The objective of this presentation will be to describe the training program that has been developed to prepare Clarkson students to work effectively in middle school classrooms. The Clarkson students are trained for their classroom experiences during the summer before they enter the classroom. They receive three credits for the training, curriculum development, and teaching efforts. It is expected that the students have the necessary background in science and technology to teach themselves the content and environmental relevance of the problem they will be teaching. Lectures and workshops focus on how to transform this knowledge into a project-based curriculum that meets the needs of the teachers, while also exciting the students. Lecture/workshops include: team work; components of an effective class and teacher; project planning and management; problem solving process; inquiry based learning, deductive/inductive learning; creating unit/lesson plan; defining learning objectives; incorporating mentoring into program; NYS standards and science exam; and, assessment techniques. Journals are used to encourage the fellows to reflect on their learning and own educational experiences. An evaluation of the program by both Clarkson students and their partner teachers indicated that this training was appropriate for the students to enter the classroom as professional scientists and engineers. Their classroom interaction skills improved throughout the year.

Professional learning communities (PLCs) for early childhood science education

NASA Astrophysics Data System (ADS)

Eum, Jungwon

This study explored the content, processes, and dynamics of Professional Learning Community (PLC) sessions. This study also investigated changes in preschool teachers' attitudes and beliefs toward science teaching after they participated in two different forms of PLCs including workshop and face-to-face PLC as well as workshop and online PLC. Multiple sources of data were collected for this study including participant artifacts and facilitator field notes during the PLC sessions. The participants in this study were eight teachers from NAEYC-accredited child care centers serving 3- to 5-year-old children in an urban Midwest city. All teachers participated in a workshop entitled, "Ramps and Pathways." Following the workshop, the first group engaged in face-to-face PLC sessions and the other group engaged in online PLC sessions. Qualitative data were collected through audio recordings, online archives, and open-ended surveys. The teachers' dialogue during the face-to-face PLC sessions was audiotaped, transcribed, and analyzed for emerging themes. Online archives during the online PLC sessions were collected and analyzed for emerging themes. Four main themes and 13 subthemes emanated from the face-to-face sessions, and 3 main themes and 7 subthemes emanated from the online sessions. During the face-to-face sessions, the teachers worked collaboratively by sharing their practices, supporting each other, and planning a lesson together. They also engaged in inquiry and reflection about their science teaching and child learning in a positive climate. During the online sessions, the teachers shared their thoughts and documentation and revisited their science teaching and child learning. Five themes and 15 subthemes emanated from the open-ended survey responses of face-to-face group teachers, and 3 themes and 7 subthemes emanated from the open-ended survey responses of online group teachers. Quantitative data collected in this study showed changes in teachers' attitudes and beliefs toward science teaching. Face-to-face group teachers' comfort with planning and doing different science activities increased significantly after the workshop and after the combination of workshop and face-to-face PLC. This study contributes to the research about various forms of professional development and their process and outcome in early childhood science education and informs early childhood professional communities of creative ways to improve science teaching and learning.

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.

A Comparison Between Teacher-Directed Instruction and Student Self-Directed Study in Physical Science for Undergraduate Elementary Education Majors.

ERIC Educational Resources Information Center

Magnus, Douglas Leslie

This research was conducted to compare the learning which occurred in a preservice elementary education course using two teaching-learning methods (teacher-directed instruction and student self-directed study). Areas investigated were: (1) knowledge of physical science content, (2) development and application of the processes of science, (3)…

Questioning Reality, Questioning Science: Teaching Students in the Food and Agricultural Sciences about Epistemological, Ethical, and Empirical Controversies

ERIC Educational Resources Information Center

Chiles, Roburt; Coupland, John Neil

2017-01-01

The effective application of food science depends on social constraints, yet the training for food scientists does not adequately consider the contested social context under which food is processed, packaged, and prepared. We recently co-taught a new course ("Arguing about food") intended to introduce students to critical perspectives on…

Processes and Pathways: How Do Mathematics and Science Partnerships Measure and Promote Growth in Teacher Content Knowledge?

ERIC Educational Resources Information Center

Moyer-Packenham, Patricia S.; Westenskow, Arla

2012-01-01

Intense focus on student achievement results in mathematics and science has brought about claims that K-12 teachers should be better prepared to teach basic concepts in these disciplines. The focus on teachers' mathematics and science content knowledge has been met by efforts to increase teacher knowledge through funded national initiatives…

The Evaluation of Modelling Competences: Difficulties and Potentials for the Learning of the Sciences

ERIC Educational Resources Information Center

Lopes, J. Bernardino; Costa, Nilza

2007-01-01

Modelling is an inherent process for the construction and use of science concepts that mobilize diverse specific competences. The aims of this work are to put forward a means of evaluating modelling competences that is relevant for physics teaching and science education research and to identify the potentials and constraints in the development of…

Elementary School Students' Emotions When Exploring an Authentic Socio-Scientific Issue through the Use of Models

ERIC Educational Resources Information Center

Nicolaou, Chr. Th.; Evagorou, M.; Lymbouridou, Chr.

2015-01-01

Despite the belief that emotions are important in the learning process, research in the area of emotions and learning, especially in science, is scant. Modelling and SSI argumentation have shared with respect to the emphasis in recent science standards reports as core scientific practices that need to be part of science teaching and learning. Even…

Examination of Visuals about the Particulate Nature of Matter in Turkish Middle School Science Textbooks

ERIC Educational Resources Information Center

Kapici, Hasan Özgür; Savasci-Açikalin, Funda

2015-01-01

Textbooks are one of the primary teaching tools frequently used in schools and most teachers use them in their classrooms (Sanchez and Valcarcel, 1999). Since there are a lot of abstract concepts in science education, images in science textbooks play a vital role in the learning process (Kenan et al., 2011). Concretization of abstract concepts may…

Creating a culture of patient-focused care through a learner-centered philosophy.

PubMed

Linscott, J; Spee, R; Flint, F; Fisher, A

1999-01-01

This paper will discuss the teaching-learning process used in the Patient-Focused Care Course at a major teaching hospital in Canada that is transforming nursing practice from a provider driven to a patient-focused approach. The experiential and reflective nature of the course offers opportunities for nurses to link theory with practice, to think critically and reflectively about their own values and beliefs and to translate that meaning into practice. The learning process reflects principles of adult learning based on Knowles andragogical model which differs from the traditional pedagogical model of teaching. The essence of andragogy is a constant unfolding process of discovery based on dialogue. Utilization of adult learning principles that support critical thinking and foster transformational change present an alternative to traditional ways of teaching and learning the art and science of nursing practice.

Factors Influencing Science Content Accuracy in Elementary Inquiry Science Lessons

NASA Astrophysics Data System (ADS)

Nowicki, Barbara L.; Sullivan-Watts, Barbara; Shim, Minsuk K.; Young, Betty; Pockalny, Robert

2013-06-01

Elementary teachers face increasing demands to engage children in authentic science process and argument while simultaneously preparing them with knowledge of science facts, vocabulary, and concepts. This reform is particularly challenging due to concerns that elementary teachers lack adequate science background to teach science accurately. This study examined 81 in-classroom inquiry science lessons for preservice education majors and their cooperating teachers to determine the accuracy of the science content delivered in elementary classrooms. Our results showed that 74 % of experienced teachers and 50 % of student teachers presented science lessons with greater than 90 % accuracy. Eleven of the 81 lessons (9 preservice, 2 cooperating teachers) failed to deliver accurate science content to the class. Science content accuracy was highly correlated with the use of kit-based resources supported with professional development, a preference for teaching science, and grade level. There was no correlation between the accuracy of science content and some common measures of teacher content knowledge (i.e., number of college science courses, science grades, or scores on a general science content test). Our study concluded that when provided with high quality curricular materials and targeted professional development, elementary teachers learn needed science content and present it accurately to their students.

Emotional Issues in Teaching Science: A Case Study of a Teacher's Views

NASA Astrophysics Data System (ADS)

Zembylas, Michalinos

2004-08-01

Science teaching environments are social environments, and teachers emotions interact with their science teaching in powerful ways. To value the teacher is to value the whole person, not just the intellect. In this paper, a theorization of teacher emotion in science teaching is developed which illustrates the role of emotion in establishing and maintaining self-esteem in science teaching situations. From the standpoint of social-constructionist theory of emotion, it is argued that emotion is a social construction within social relationships. Arising from this view, are the emotions of intellectual excitement, frustration and shame that play a key role in the development of self-esteem. The dynamics of these emotions, in the context of experiences of success and failure, may dispose teachers to act positively or negatively towards science teaching. The theorisation developed is illustrated in the emotional experiences of an elementary school teacher in an early childhood science classroom. These experiences indicate that emotion is constitutive of teaching, and merits greater consideration in science teaching.

Production of a Science Documentary and its Usefulness in Teaching the Nature of Science: Indirect Experience of How Science Works

NASA Astrophysics Data System (ADS)

Kim, Sun Young; Yi, Sang Wook; Cho, Eun Hee

2014-05-01

In this study, we produced a documentary which portrays scientists at work and critically evaluated the use of this film as a teaching tool to help students develop an understanding of the nature of science. The documentary, "Life as a Scientist: People in Love with Caenorhabditis elegans, a Soil Nematode" encompasses the entire process of a scientific investigation by exploring the everyday life of a particular group of scientists. We explored the effectiveness of this documentary in teaching the nature of science by examining the epistemological views of college students toward science before and after viewing. In addition, we collected written responses from the students where they described which aspect of the nature of science they learned from the documentary. The scores of epistemological views toward science increased between the pretest and the posttest ( p < 0.01) with the most significant increase being in their views of the role of social negotiation. In the written responses, approximately half of the students suggested that they had learned more about the role which cooperation and collaboration play in the development of scientific knowledge by watching the documentary. The documentary overall provides a valuable instructional context so that students are able to discuss and reflect on various aspects of nature of science within authentic scientific research.

"Look at what I am saying": Multimodal science teaching

NASA Astrophysics Data System (ADS)

Pozzer-Ardenghi, Lilian

Language constitutes the dominant representational mode in science teaching, and lectures are still the most prevalent of the teaching methods in school science. In this dissertation, I investigate lectures from a multimodal and communicative perspective to better understand how teaching as a cultural-historical and social activity unfolds; that is, I am concerned with teaching as a communicative event, where a variety of signs (or semiotic resources), expressed in diverse modalities (or modes of communication) are produced and reproduced while the teacher articulates very specific conceptual meanings for the students. Within a trans-disciplinary approach that merges theoretical and methodical frameworks of social and cultural studies of human activity and interaction, communicative and gestures studies, linguistics, semiotics, pragmatics, and studies on teaching and learning science, I investigate teaching as a communicative, dynamic, multimodal, and social activity. My research questions include: What are the resources produced and reproduced in the classroom when the teacher is lecturing? How do these resources interact with each other? What meanings do they carry and how are these associated to achieve the coherence necessary to accomplish the communication of complex and abstract scientific concepts, not only within one lecture, but also within an entire unit of the curricula encompassing various lectures? My results show that, when lecturing, the communication of scientific concepts occur along trajectories driven by the dialectical relation among the various semiotic resources a lecturer makes available that together constitute a unit---the idea. Speech, gestures, and other nonverbal resources are but one-sided expressions of a higher order communicative meaning unit. The iterable nature of the signs produced and reproduced during science lectures permits, supports, and encourages the repetition, variation, and translation of ideas, themes, and languages and therefore permits, supports, and encourages conceptual development at the boundary between the mundane and discipline-specific cultures that students (have to) traverse in learning. It is only within this multimodal and dialectical communicative meaning unit that we can understand and investigate science teaching and learning as these processes naturally occur.

Caught in the Balance: An Organizational Analysis of Science Teaching in Schools with Elementary Science Specialists

ERIC Educational Resources Information Center

Marco-Bujosa, Lisa M.; Levy, Abigail Jurist

2016-01-01

Elementary schools are under increasing pressure to teach science and teach it well; yet, research documents that classroom teachers must overcome numerous personal and school-based challenges to teach science effectively at this level, such as access to materials and inadequate instructional time. The elementary science specialist model…

Values of Catholic science educators: Their impact on attitudes of science teaching and learning

NASA Astrophysics Data System (ADS)

DeMizio, Joanne Greenwald

This quantitative study examined the associations between the values held by middle school science teachers in Catholic schools and their attitudes towards science teaching. A total of six value types were studied---theoretical, economic, aesthetic, social, political, and religious. Teachers can have negative, positive, or neutral attitudes towards their teaching that are linked to their teaching practices and student learning. These teachers' attitudes may affect their competence and have a subsequent impact on their students' attitudes and dispositions towards science. Of particular interest was the relationship between science teaching attitudes and religious values. A non-experimental research design was used to obtain responses from 54 teachers with two survey instruments, the Science Teaching Attitude Scale II and the Allport-Vernon-Lindzey Study of Values. Stepwise multiple regression analysis showed that political values were negatively associated with attitudes towards science teaching. Data collected were inconsistent with the existence of any measurable association between religious values and attitudes towards science teaching. This study implies that science teacher preparation programs should adopt a more contextual perspective on science that seeks to develop the valuation of science within a cultural context, as well as programs that enable teachers to identify the influence of their beliefs on instructional actions to optimize the impact of learning new teaching practices that may enhance student learning.

New Student-Centered and Data-Based Approaches to Hydrology Education

NASA Astrophysics Data System (ADS)

Bloeschl, G.; Troch, P. A. A.; Sivapalan, M.

2014-12-01

Hydrology as a science has evolved over the last century. The knowledge base has significantly expanded, and there are requirements to meet with the new expectations of a science where the connections between the parts are just as important as the parts themselves. In this new environment, what should we teach, and how should we teach it? Given the limited time we have in an undergraduate (and even graduate) curriculum, what should we include, and what should we leave out? What new material and new methods are essential, as compared to textbooks? Past practices have assumed certain basics as being essential to undergraduate teaching. Depending on the professor's background, these include basic process descriptions (infiltration, runoff generation, evaporation etc.) and basic techniques (unit hydrographs, flood frequency analysis, pumping tests). These are taught using idealized (textbook) examples and examined to test this basic competence. The main idea behind this "reductionist" approach to teaching is that the students will do the rest of the learning during practice and apprenticeship in their workplaces. Much of current hydrology teaching follows this paradigm, and the books provide the backdrop to this approach. Our view is that this approach is less than optimum, as it does not prepare the students to face up to the new challenges of the changing world. It is our view that the basics of hydrologic science are not just a collection of individual processes and techniques, but process interactions and underlying concepts or principles, and a collection of techniques that highlights these, combined with student-driven and data-based learning that enables the students to see the manifestations of these process interactions and principles in action in real world situations. While the actual number of items that can be taught in the classroom by this approach in a limited period of time may be lower than in the traditional approach, it will help the students make connections between the understanding gained in this way in solving real world problems. We will illustrate the feasibility of the approach through key examples from our own teaching.

The Effectiveness of Substituting Locally Available Materials in Teaching Chemistry in Nigeria: A Case for Science Education in Developing Countries

ERIC Educational Resources Information Center

DomNwachukwu, Nkechi S.; DomNwachukwu, Chinaka S.

2006-01-01

This article investigates the effectiveness of improvising locally available materials for teaching chemistry in Nigeria, as a case for a culture of improvisation for teaching the sciences in developing countries. The scarcity and cost of imported materials for teaching science has remained a major challenge to teaching sciences in developing…

Religion, nature, science education and the epistemology of dialectics

NASA Astrophysics Data System (ADS)

Alexakos, Konstantinos

2010-03-01

In his article Scientists at Play in a Field of the Lord, David Long (2010) rightly challenges our presumptions of what science is and brings forth some of the disjunctures between science and deeply held American religious beliefs. Reading his narrative of the conflicts that he experienced on the opening day of the Creation Museum, I cannot help but reconsider what the epistemology of science is and science learning ought to be. Rather than science being taught as a prescribed, deterministic system of beliefs and procedures as it is often done, I suggest instead that it would be more appropriate to teach science as a way of thinking and making sense of dialectical processes in nature. Not as set of ultimate "truths", but as understandings of processes themselves in the process of simultaneously becoming and being transformed.

Efficacy of ACA strategies in biography-driven science teaching: an investigation

NASA Astrophysics Data System (ADS)

MacDonald, Grizelda L.; Miller, Stuart S.; Murry, Kevin; Herrera, Socorro; Spears, Jacqueline D.

2013-12-01

This study explored the biography-driven approach to teaching culturally and linguistically diverse students in science education. Biography-driven instruction (BDI) embraces student diversity by incorporating students' sociocultural, linguistic, cognitive, and academic dimensions of their biographies into the learning process (Herrera in Biography-driven culturally responsive teaching. Teachers College Press, New York, 2010). Strategies have been developed (Herrera, Kavimandan and Holmes in Crossing the vocabulary bridge: differentiated strategies for diverse secondary classrooms. Teachers College Press, New York, 2011) that provide teachers with instructional routines that facilitate BDI. Using systematic classroom observations we empirically demonstrate that these activate, connect, affirm, strategies are likely to be effective in increasing teachers' biography-driven practices. Implications for theory and practice are discussed.

Strengthening Mathematics And Science Education (SMASE) For Improving The Quality Of Teachers in Nigeria

NASA Astrophysics Data System (ADS)

Shuaibu, Zainab Muhammad

2016-04-01

The education system in Nigeria, especially at the basic education level, teachers who teach mathematics and science need to be confident with what they are teaching, they need to have appropriate techniques and strategies of motivating the pupils. If these subjects are not taught well at the basic education level its extraordinarily hard to get them (pupils/students) back to track, no matter what will be done in the secondary and tertiary level. Teachers as the driving force behind improvements in the education system are in the best position to understand and propose solutions to problems faced by students. Teachers must have access to sustainable, high quality professional development in order to improve teaching and student learning. Teachers' professional development in Nigeria, however, has long been criticized for its lack of sustainability and ability to produce effective change in teaching and students achievement. Education theorists today believe that a critical component of educational reform lies in providing teachers with various opportunities and supports structures that encourage ongoing improvement in teachers' pedagogy and discipline-specific content knowledge. However, the ongoing reforms in education sector and the need to refocus the Nigeria education system towards the goal of the National Economical Empowerment and Development Strategies (NEEDS) demand that the existing In-service and Education Training (INSET) in Nigeria be refocused. It is against this premise that an INSET programme aimed at Strengthening Mathematics And Science Education (SMASE) for primary and secondary school teachers was conceived. The relevance of the SMASE INSET according to the Project Design Matrix (PDM) was derived from an In-service aimed at enhancing the quality of teachers in terms of positive attitude, teaching methodology, mastery of content, resource mobilization and utilization of locally available teaching and learning materials. The intervention of Strengthening Mathematics And Science Education (SMASE) in training and re-training of teachers at enhancing quality classroom activities in Mathematics and Science subjects through Activity, Student-centre, Experiments, Improvisation (ASEI)-Plan, Do, See, Improve (PDSI) instructional strategy. This instructional strategy has cultivates learner's mathematical and scientific thinking ability and have provided one of the best regular INSET for primary and secondary Mathematics and Science teachers as observed during the SMASE impact survey in the three piloted states in Nigeria. To build a common ground for teaching method irrespective of teacher and teaching style School-Based Training (SBT) is now advocated in SMASE, SBT is aimed at improving teaching and learning activities in the classroom through Lesson Study model. Lesson Study is a teaching improvement and knowledge building process that has its origin in the Japanese elementary education it involves a comprehensive process of planning, observation, analysis and identifying the best approaches in a classroom. This an inquiry approach to professional development that requires teachers to identify an area of instructional interest, collect data to analyses and make instructional changes based on the data. This kind of professional development make teachers acquires current and up to date knowledge in the field of mathematics and science.

Dialogic Teaching in the Primary Science Classroom

ERIC Educational Resources Information Center

Mercer, Neil; Dawes, Lyn; Staarman, Judith Kleine

2009-01-01

This paper describes research on dialogue between teachers and pupils during primary school science lessons, using talk from two classrooms to provide our examples. We consider whether teachers use dialogue to make education a cumulative, continuing process for guiding the development of children's understanding. Case studies of two teachers,…

Herbicide Leaching Column for a Weed Science Teaching Laboratory.

ERIC Educational Resources Information Center

Ahrens, W. H.

1986-01-01

Presents an experiment which enables weed science students to observe first-hand the process of herbicide leaching in soils. Features of this technique which demonstrate the movement of herbicide within a column of soil are outlined. Diagrams are provided of the apparatus employed in the exercise. (ML)

Recombinant DNA for Teachers.

ERIC Educational Resources Information Center

Duvall, James G., III

1992-01-01

A science teacher describes his experience at a workshop to learn to teach the Cold Spring Harbor DNA Science Laboratory Protocols. These protocols lead students through processes for taking E. coli cells and transforming them into a new antibiotic resistant strain. The workshop featured discussions of the role of DNA recombinant technology in…

Influence of Culture and Language Sensitive Physics on Science Attitude Enhancement

ERIC Educational Resources Information Center

Morales, Marie Paz E.

2015-01-01

The study critically explored how culture and language sensitive curriculum materials in physics improve Pangasinan learners' attitude towards science. Their cultural dimensions, epistemological beliefs, and views on integration of culture and language in the teaching and learning process determined their cultural preference or profile. Design and…

"We Are Textbook 'Badnekais'!": A Bernsteinian Analysis of Textbook Culture in Science Classrooms

ERIC Educational Resources Information Center

Vijaysimha, Indira

2013-01-01

This article is an empirical study of science teaching practices using a Bernsteinian framework. It provides a comparative analysis through ethnographic examination of pedagogic recontextualisation in different school types--government, private unaided and international. Bernstein drew attention to the process of pedagogic recontextualisation and…

The Natural Sciences in the Schools: Tension in the Modernization Process of Argentine Society (1870-1960).

ERIC Educational Resources Information Center

Gvirtz, Silvina; Aisenstein, Angela; Cornejo, Jorge N.; Valerani, Alejandra

2001-01-01

Analyzes the politicization of the natural sciences curriculum in Argentinean schools in relation to evolutionist theories and the teaching of astronomy and cosmography. Concludes that the ways in which content is selected and arranged arise as a solution to ideological conflicts. (MM)

Patient education process in teaching hospitals of Tehran University of Medical Sciences

PubMed Central

Seyedin, Hesam; Goharinezhad, Salime; Vatankhah, Soodabeh; Azmal, Mohammad

2015-01-01

Background: Patient education is widely recognized as a core component of nursing. Patient education can lead to quality outcomes including adherence, quality of life, patients' knowledge of their illness and self-management. This study aimed to clarify patient education process in teaching hospitals affiliated to Tehran University of Medical Sciences (TUMS) in Iran. Methods: This cross-sectional study was conducted in 2013. In this descriptive quantitative study, the sample covered 187 head nurses selected from ten teaching hospitals through convenience sampling. Data were collected with a questionnaire developed specifically for this study. The questionnaire measured patient education process in four dimensions: need assessment, planning, implementing and evaluating. Results: The overall mean score of patient education was 3.326±0.0524. Among the four dimensions of the patient education process, planning was in the highest level (3.570±0.0591) and the lowest score belonged to the evaluation of patient education (2.840 ±0.0628). Conclusion: Clarifying patient education steps, developing standardized framework and providing easily understandable tool-kit of the patient education program will improve the ability of nurses in delivering effective patient education in general and specialized hospitals. PMID:26478878

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.

Teaching and Learning in the Science Classroom: The Interplay between Teachers' Epistemological Moves and Students' Practical Epistemology

ERIC Educational Resources Information Center

Lidar, Malena; Lundqvist, Eva; Ostman, Leif

2006-01-01

The practical epistemology used by students and the epistemological moves delivered by teachers in conversations with students are analyzed in order to understand how teaching activities interplay with the "how" and the "what" of students' learning. The purpose is to develop an approach for analyzing the process of privileging…

Teaching and Learning the Interplay between Chance and Determinism in Nonlinear Systems

ERIC Educational Resources Information Center

Stavrou, Dimitrios; Duit, Reinders

2014-01-01

That the interplay of random and deterministic processes may result in both the limited predictability of nonlinear systems and the formation of structures seems to be a most valuable general insight into the nature of science. This study investigates the possibility of teaching and learning the interplay of chance and determinism in nonlinear…

Embedding Assessment to Improve Learning

ERIC Educational Resources Information Center

Whitehouse, Mary

2013-01-01

The traditional plan of teaching science content and then deciding at the end what to ask in an examination is challenged in this presentation, which starts the planning at the other end of the process. The intention is to consider the topic, decide what children should know and be able to do by the end, then structure the teaching, with…

"Caenorhabditis Elegans" as an Undergraduate Educational Tool for Teaching RNAi

ERIC Educational Resources Information Center

Andersen, Janet; Krichevsky, Alexander; Leheste, Joerg R.; Moloney, Daniel J.

2008-01-01

Discovery of RNA-mediated interference (RNAi) is widely recognized as one of the most significant molecular biology breakthroughs in the past 10 years. There is a need for science educators to develop teaching tools and laboratory activities that demonstrate the power of this new technology and help students to better understand the RNAi process.…

A Team of Equals: Teaching Writing in the Sciences

ERIC Educational Resources Information Center

Emerson, Lisa; MacKay, Bruce R.; MacKay, Marion B.; Funnell, Keith A.

2006-01-01

Writing across the curriculum (WAC) is a way of integrating the teaching of writing into specific academic disciplines. A problem faced in the WAC literature is how to develop a process that integrates the skills of multi-disciplinary teams. In this project, action research was used to develop a team comprising faculty from the applied sciences…

Teaching Strategies Mediated by Technologies in the EduLab Model: The Case of Mathematics and Natural Sciences

ERIC Educational Resources Information Center

Oliveira, Ana; Pombo, Lúcia

2017-01-01

The EduLab model is a "new" educational model that integrates technologies in educational contexts comprising full equipped classrooms with attractive and easy-to-use technological resources. This model tries to promote a dynamic and more effective teaching and learning process. For this purpose, the model provides teachers training and…

The Teaching of Anthropogenic Climate Change and Earth Science via Technology-Enabled Inquiry Education

ERIC Educational Resources Information Center

Bush, Drew; Sieber, Renee; Seiler, Gale; Chandler, Mark

2016-01-01

A gap has existed between the tools and processes of scientists working on anthropogenic global climate change (AGCC) and the technologies and curricula available to educators teaching the subject through student inquiry. Designing realistic scientific inquiry into AGCC poses a challenge because research on it relies on complex computer models,…

"A Scientist Has Many Things to Do:" EPO Strategies that Focus on the Processes of Science

NASA Astrophysics Data System (ADS)

Laursen, S. L.; Brickley, A. L.

2011-09-01

Scientists' effort in education and public outreach (EPO) is best invested in sharing their expertise on the nature and processes of science - the "understandings of science" that are emphasized in the National Science Education Standards, but that are difficult to teach and poorly supported by existing curricular materials. These understandings address the intellectual process of science - posing questions, gathering and interpreting evidence - and the social process of science as a human endeavor for building knowledge. We share several ways of incorporating concepts about the nature and processes of science into EP/O activities and making them focal points in their own right. Hands-on activities used at science festivals and in classrooms and professional development workshops illustrate key scientific thinking skills such as observing, classifying, making predictions, and drawing inferences. A more comprehensive approach is exemplified by Upward and Outward: Scientific Inquiry on the Tibetan Plateau, a 20-minute educational documentary film for school science classrooms and teacher professional development. The film portrays the intellectual and human processes of science through an inside view of a research project; classroom assessments offer evidence of its impact on students' ideas about these processes.

Teachers' sense-making of curriculum structures and its impact on the implementation of an innovative reform-based science curriculum

NASA Astrophysics Data System (ADS)

Beckford-Smart, Meredith

This study discusses the social interactions involved in teachers' enactment and use of new science curricula. The teachers studied participated in the LiFE program, a university-school partnership, which is an inquiry based science and nutrition education program. In this program fifth and sixth grade students learned science through the study of food. The program used the study of food and food systems to teach life sciences and nutrition through inquiry based studies. Through the partnership teachers received professional development which aimed to deepen their conceptual understandings of life science and develop skills in implementing inquiry-base teaching. Using qualitative research methods of ethnography and narrative inquiry to study teachers' sense-making of messages from curriculum structures, the intention was to explore how teachers' sense-making of these structures guided their classroom practices. Two research questions were addressed: (a) How do teachers make sense of curriculum given their perceptions, their school context and their curricular context; (b) What influence do their identities as science teachers/learners have on their enactment of an innovative science curriculum. I used comparative analysis to examine teacher's beliefs and identities as teachers/learners. In the process of studying these teachers an understanding of how teachers' stories and identities shape their use and enactment of science curriculum came to light. The initial analysis revealed four distinct teacher identities: (a) social responsibility teacher/learner; (b) experiential teacher/learner; (c) supportive institution teacher/learner; and (d) turning point teacher. Besides these distinct teacher identities three cross cutting themes emerged: (a) creating environments conducive to their teaching visions; (b) empowering student through science teaching; and (c) dealing with the uncertainty of teaching. The information gathered from this study will illuminate how these different teacher stories shaped their teaching practices and enactment of science curriculum. Curriculum developers and policy makers struggle to understand how their messages can be communicated clearly to their readers and users. Many argue that curriculum materials are not used the way they are intended. Others argue the messages read from policy and curriculum materials and artifacts are ambiguous and unclear. This study did not argue that teachers do not use the curriculum materials correctly. This study focused on teachers' sense-making of curriculum materials so we can get a better understanding of the role curriculum resources can play in reform.

A longitudinal investigation of the preservice science teachers' beliefs about science teaching during a science teacher training programme

NASA Astrophysics Data System (ADS)

Buldur, Serkan

2017-01-01

The aim of this longitudinal study was to investigate the changes in preservice science teachers' beliefs about science teaching during a science teacher training programme. The study was designed as a panel study, and the data were collected from the same participants at the end of each academic year during a four-year period. The participants were composed of 76 preservice teachers, and the DASTT-C was used as the data collection tool. As a result of the study, it was determined that the students had conventional teaching beliefs after the first years of the teacher training programme. Moreover, the mental teaching styles of preservice teachers about the science teaching were found to undergo changes throughout their undergraduate education. Participants' beliefs about conventional teaching started to change, especially after they first took a science method course in their third year and their beliefs shifted towards student-centred teaching. Implications for science teacher training programmes were also addressed.

Exploring Science Teaching Efficacy of CASE Curriculum Teachers: A Post-Then-Pre Assessment

ERIC Educational Resources Information Center

Ulmer, Jonathan D.; Velez, Jonathan J.; Lambert, Misty D.; Thompson, Greg W.; Burris, Scott; Witt, Phillip A.

2013-01-01

This descriptive-correlational study sought to investigate teachers' levels of Personal Science Teaching Efficacy (PSTE) and Science Teaching Outcome Expectancy (STOE) using the Science Teaching Efficacy Beliefs Instrument (STEBI). The population included all teachers completing a CASE Institute training session during summer 2010. Assessments…

Development of interest in science and interest in teaching elementary science: Influence of informal, school, and inquiry methods course experiences

NASA Astrophysics Data System (ADS)

Bulunuz, Mizrap

Inquiry-based science instruction is a major goal of science education reform. However, there is little research examining how preservice elementary teachers might be motivated to teach through inquiry. This quantitative study was designed to examine the role of background experiences and an inquiry science methods course on interest in science and interest in teaching science. The course included many activities and assignments at varying levels of inquiry, designed to teach content and inquiry methods and to model effective teaching. The study involved analyses of surveys completed by students in the course on their experiences with science before, during, and at the end of the course. The following questions guided the design of this study and analysis of the data: (1) What science background experiences (school, home, and informal education) do participants have and how do those experiences affect initial interest in science? (2) Among the hands-on activities in the methods course, is there a relationship between level of inquiry of the activity and the motivational quality (interesting, fun, and learning) of the activity? (3) Does the course affect participants' interest and attitude toward science? (4) What aspects of the course contribute to participants' interest in teaching science and choice to teach science? Descriptive and inferential analysis of a background survey revealed that participants with high and low initial interest in science differed significantly on remembering about elementary school science and involvement in science related activities in childhood/youth. Analysis of daily ratings of each hands-on activity on motivational qualities (fun, interest, and learning) indicated that there were significant differences in motivational quality of the activities by level of inquiry with higher levels of inquiry rated more positively. Pre/post surveys indicated that participants increased in interest in science and a number of variables reflecting more positive feelings about science and science teaching. Regression analysis found that the best predictors for interest in teaching science were experiencing fun activities in the science methods course followed by the interest participants brought to the course. This study highlights the motivational aspects of the methods course in developing interest in science and interest in teaching science.

Can medical schools teach high school students to be scientists?

PubMed

Rosenbaum, James T; Martin, Tammy M; Farris, Kendra H; Rosenbaum, Richard B; Neuwelt, Edward A

2007-07-01

The preeminence of science in the United States is endangered for multiple reasons, including mediocre achievement in science education by secondary school students. A group of scientists at Oregon Health and Science University has established a class to teach the process of scientific inquiry to local high school students. Prominent aspects of the class include pairing of the student with a mentor; use of a journal club format; preparation of a referenced, hypothesis driven research proposal; and a "hands-on" laboratory experience. A survey of our graduates found that 73% were planning careers in health or science. In comparison to conventional science classes, including chemistry, biology, and algebra, our students were 7 times more likely to rank the scientific inquiry class as influencing career or life choices. Medical schools should make research opportunities widely available to teenagers because this experience dramatically affects one's attitude toward science and the likelihood that a student will pursue a career in science or medicine. A federal initiative could facilitate student opportunities to pursue research.

Understanding Male Underachievement in Middle School Science: Challenging the Assumptions

NASA Astrophysics Data System (ADS)

Holbrooks, Marilyn Jane

The overall purpose of this collaborative action research study was to explore the experiences of eight middle school science teachers. This collaborative action research study concerned itself with male student underachievement in science at the middle school level. The study was conducted at Sherwood Forest Middle School (a pseudonym) with sixth through eighth grade science teachers with more than three years of experience, various teaching backgrounds within academic subjects as well as special education, and different grade levels. The interviews probed the teachers' personal experiences and insights regarding male underachievement in science. This collaborative action research study relied on qualitative data from interviews and other pieces of evidence that might support the teachers' observations, specifically standardized test data and class grades. In addition, four of the seven teachers participated in a focus group, developing strategies for more effective teaching in science for all students. Understanding the experiences of science educators for sixth through eighth grade students can assist local, state, and federal policymakers in educational decision-making processes for the future.

Enhancing Teacher Preparation and Improving Faculty Teaching Skills: Lessons Learned from Implementing ``Science That Matters'' a Standards Based Interdisciplinary Science Course Sequence

NASA Astrophysics Data System (ADS)

Potter, Robert; Meisels, Gerry

2005-06-01

In a highly collaborative process we developed an introductory science course sequence to improve science literacy especially among future elementary and middle school education majors. The materials and course features were designed using the results of research on teaching and learning to provide a rigorous, relevant and engaging, standard based science experience. More than ten years of combined planning, development, implementation and assessment of this college science course sequence for nonmajors/future teachers has provided significant insights and success in achieving our goal. This paper describes the history and iterative nature of our ongoing improvements, changes in faculty instructional practice, strategies used to overcome student resistance, significant student learning outcomes, support structures for faculty, and the essential and informative role of assessment in improving the outcomes. Our experience with diverse institutions, students and faculty provides the basis for the lessons we have learned and should be of help to others involved in advancing science education.

Misconceived causal explanations for emergent processes.

PubMed

Chi, Michelene T H; Roscoe, Rod D; Slotta, James D; Roy, Marguerite; Chase, Catherine C

2012-01-01

Studies exploring how students learn and understand science processes such as diffusion and natural selection typically find that students provide misconceived explanations of how the patterns of such processes arise (such as why giraffes' necks get longer over generations, or how ink dropped into water appears to "flow"). Instead of explaining the patterns of these processes as emerging from the collective interactions of all the agents (e.g., both the water and the ink molecules), students often explain the pattern as being caused by controlling agents with intentional goals, as well as express a variety of many other misconceived notions. In this article, we provide a hypothesis for what constitutes a misconceived explanation; why misconceived explanations are so prevalent, robust, and resistant to instruction; and offer one approach of how they may be overcome. In particular, we hypothesize that students misunderstand many science processes because they rely on a generalized version of narrative schemas and scripts (referred to here as a Direct-causal Schema) to interpret them. For science processes that are sequential and stage-like, such as cycles of moon, circulation of blood, stages of mitosis, and photosynthesis, a Direct-causal Schema is adequate for correct understanding. However, for science processes that are non-sequential (or emergent), such as diffusion, natural selection, osmosis, and heat flow, using a Direct Schema to understand these processes will lead to robust misconceptions. Instead, a different type of general schema may be required to interpret non-sequential processes, which we refer to as an Emergent-causal Schema. We propose that students lack this Emergent Schema and teaching it to them may help them learn and understand emergent kinds of science processes such as diffusion. Our study found that directly teaching students this Emergent Schema led to increased learning of the process of diffusion. This article presents a fine-grained characterization of each type of Schema, our instructional intervention, the successes we have achieved, and the lessons we have learned. Copyright © 2011 Cognitive Science Society, Inc.

Science on Sunday: The Prospective Graduate Student Workshop in Ocean Sciences

NASA Astrophysics Data System (ADS)

Jacox, M. G.; Powers, M. L.

2010-12-01

Here, we present the design and implementation of the Prospective Graduate Student Workshop (PGSW) in Ocean Sciences, a new teaching venue developed within the University of California's Center for Adaptive Optics (CfAO). The one-day workshop introduced undergraduate and community college students interested in pursuing graduate school to the field of ocean sciences through a series of inquiry-based activities. Throughout the activity design process, two important themes were emphasized; 1) physical, chemical, and biological properties are tightly coupled in the ocean; 2) ocean sciences is a highly inter-disciplinary field that includes scientists from diverse backgrounds. With these ideas in mind the workshop was split into two activities, morning and afternoon, each of which concentrated on teaching certain process skills thought to be useful for prospective graduate students. The morning covered density and mixing in the ocean and the afternoon was focused on phytoplankton and how they experience the ocean as a low Reynolds number environment. Attendees were instructed to complete pre- and post-activity questionnaires, which enabled assessment of individual components and the workshop as a whole. Response was very positive, students gained knowledge about ocean sciences, scientific inquiry, and graduate school in general, and most importantly had fun voluntarily participating in science on a Sunday.

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

The Use of Modeling Approach for Teaching Exponential Functions

NASA Astrophysics Data System (ADS)

Nunes, L. F.; Prates, D. B.; da Silva, J. M.

2017-12-01

This work presents a discussion related to the teaching and learning of mathematical contents related to the study of exponential functions in a freshman students group enrolled in the first semester of the Science and Technology Bachelor’s (STB of the Federal University of Jequitinhonha and Mucuri Valleys (UFVJM). As a contextualization tool strongly mentioned in the literature, the modelling approach was used as an educational teaching tool to produce contextualization in the teaching-learning process of exponential functions to these students. In this sense, were used some simple models elaborated with the GeoGebra software and, to have a qualitative evaluation of the investigation and the results, was used Didactic Engineering as a methodology research. As a consequence of this detailed research, some interesting details about the teaching and learning process were observed, discussed and described.

European Project (Eu Train - No 226518-CP-1-2005-F-COMENIUS-C21) on Comenius 2.1. Program for a Better Teaching Practice of Students in Physics and Chemistry

NASA Astrophysics Data System (ADS)

Raykova, Zh.; Mitrikova, R.; Nikolov, St.; Dimova, Y.; Valtonen, S.; Lampiselka, J.; Kyyronen, L.; Krikmann, Ott; Susi, J.; Przegietka, K.; Turlo, J.

2007-04-01

Recent research shows that students' interest in science is decreasing dramatically. This places urgent demands to making science teaching better so as to stimulate interest in it. Future teachers who are to cope with the problem are the main figures in this process. Teaching practice as a fundamental part of then-university education is essential for their successful preparation as teachers. Searching for possibilities in this area led to the launch of this international project with partners from University of Helsinki, University of Jyvaskyla (Finland), the University of Plovdiv (Bulgaria), Copernicus University in Torun (Poland) and the University of Tartu (Estonia). The main objective of the project is to present guidelines for unified initial training of science teachers in partner countries and the possibility for mobility of trainees during their studies. The present study has made a comparison of the teaching practice in partners' countries. It has identified certain main principles for a future unified curriculum for initial training of science teachers. The comparison aims to create suitable conditions for mobility of students from partners' countries during their studies and to set up the grounds for a future collaboration in developing common principles, requirements and educational standards for the practical training of science teachers.

Beating the numbers through strategic intervention materials (SIMs): Innovative science teaching for large classes

NASA Astrophysics Data System (ADS)

Alboruto, Venus M.

2017-05-01

The study aimed to find out the effectiveness of using Strategic Intervention Materials (SIMs) as an innovative teaching practice in managing large Grade Eight Science classes to raise the performance of the students in terms of science process skills development and mastery of science concepts. Utilizing experimental research design with two groups of participants, which were purposefully chosen, it was obtained that there existed a significant difference in the performance of the experimental and control groups based on actual class observation and written tests on science process skills with a p-value of 0.0360 in favor of the experimental class. Further, results of written pre-test and post-test on science concepts showed that the experimental group with the mean of 24.325 (SD =3.82) performed better than the control group with the mean of 20.58 (SD =4.94), with a registered p-value of 0.00039. Therefore, the use of SIMs significantly contributed to the mastery of science concepts and the development of science process skills. Based on the findings, the following recommendations are offered: 1. that grade eight science teachers should use or adopt the SIMs used in this study to improve their students' performance; 2. training-workshop on developing SIMs must be conducted to help teachers develop SIMs to be used in their classes; 3. school administrators must allocate funds for the development and reproduction of SIMs to be used by the students in their school; and 4. every division should have a repository of SIMs for easy access of the teachers in the entire division.

Newly qualified teachers' visions of science learning and teaching

NASA Astrophysics Data System (ADS)

Roberts, Deborah L.

2011-12-01

This study investigated newly qualified teachers' visions of science learning and teaching. The study also documented their preparation in an elementary science methods course. The research questions were: What educational and professional experiences influenced the instructor's visions of science learning and teaching? What visions of science learning and teaching were promoted in the participants' science methods course? What visions of science learning and teaching did these newly qualified teachers bring with them as they graduated from their teacher preparation program? How did these visions compare with those advocated by reform documents? Data sources included participants' assignments, weekly reflections, and multi-media portfolio finals. Semi-structured interviews provided the emic voice of participants, after graduation but before they had begun to teach. These data were interpreted via a combination of qualitative methodologies. Vignettes described class activities. Assertions supported by excerpts from participants' writings emerged from repeated review of their assignments. A case study of a typical participant characterized weekly reflections and final multi-media portfolio. Four strands of science proficiency articulated in a national reform document provided a framework for interpreting activities, assignments, and interview responses. Prior experiences that influenced design of the methods course included an inquiry-based undergraduate physics course, participation in a reform-based teacher preparation program, undergraduate and graduate inquiry-based science teaching methods courses, participation in a teacher research group, continued connection to the university as a beginning teacher, teaching in diverse Title 1 schools, service as the county and state elementary science specialist, participation in the Carnegie Academy for the Scholarship of Teaching and Learning, service on a National Research Council committee, and experience teaching a science methods course. The methods course studied here emphasized reform-based practices, science as inquiry, culturally responsive teaching, scientific discourse, and integration of science with technology and other disciplines. Participants' writings and interview responses articulated visions of science learning and teaching that included aspects of reform-based practices. Some participants intentionally incorporated and implemented reform-based strategies in field placements during the methods course and student teaching. The strands of scientific proficiency were evident in activities, assignments and participants' interviews in varying degrees.

Interactive instruction of cellular physiology for remote learning.

PubMed

Huang, C; Huang, H K

2003-12-01

The biomedical sciences are a rapidly changing discipline that have adapted to innovative technological advances. Despite these many advances, we face two major challenges: a) the number of experts in the field is vastly outnumbered by the number of students, many of whom are separated geographically or temporally and b) the teaching methods used to instruct students and learners have not changed. Today's students have adapted to technology--they use the web as a source of information and communicate via email and chat rooms. Teaching in the biomedical sciences should adopt these new information technologies (IT), but has thus far failed to capitalize on technological opportunity. Creating a "digital textbook" of the traditional learning material is not sufficient for dynamic processes such as cellular physiology. This paper describes innovative teaching techniques that incorporate familiar IT and high-quality interactive learning content with user-centric instruction design models. The Virtual Labs Project from Stanford University has created effective interactive online teaching modules in physiology (simPHYSIO) and delivered them over broadband networks to their undergraduate and medical students. Evaluation results of the modules are given as a measure of success of such innovative teaching method. This learning media strategically merges IT innovations with pedagogy to produce user-driven animations of processes and engaging interactive simulations.

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

NASA Astrophysics Data System (ADS)

Bächtold, Manuel

2013-12-01

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 is rooted in two fields, psychology of cognitive development and epistemology, which leads to two ways of describing the construction process: either as a process of enrichment and/or reorganization of the cognitive structures at the mental level, or as a process of building or development of models or theories at the symbolic level. Secondly, I argue that the usual distinction between "personal constructivism" (PC) and "social constructivism" (SC) originates in a difference of model of reference: the one of PC is Piaget's description of "spontaneous" concepts, assumed to be constructed by students on their own when interacting with their material environment, the one of SC is Vygotsky's description of scientific concepts, assumed to be introduced by the teacher by means of verbal communication. Thirdly, I support the idea that, within SC, there are in fact two trends: one, in line with Piaget's work, demonstrates how cooperation among students affects the development of each individual's cognitive structures; the other, in line with Vygotsky's work, claims that students can understand and master new models only if they are introduced to the scientific culture by their teacher. Fourthly, I draw attention to the process of "problem construction" identified by some French authors. Finally, I advocate for an integrated approach in science education, taking into account all the facets of science learning and teaching mentioned above and emphasizing their differences as well as their interrelations. Some suggestions intended to improve the efficiency of science teaching are made.

"You Have to Give Them Some Science Facts": Primary Student Teachers' Early Negotiations of Teacher Identities in the Intersections of Discourses about Science Teaching and about Primary Teaching

ERIC Educational Resources Information Center

Danielsson, Anna T.; Warwick, Paul

2014-01-01

In the broadest sense, the goal for primary science teacher education could be described as preparing these teachers to teach for scientific literacy. Our starting point is that making such science teaching accessible and desirable for future primary science teachers is dependent not only on their science knowledge and self-confidence, but also on…

Reflective Pathways: Analysis of an Urban Science Teaching Field Experience on Noyce Scholar-Science Education Awardees' Decisions to Teach Science in a High-Need New York City School

ERIC Educational Resources Information Center

Bischoff, Paul; French, Paul; Schaumloffel, John

2014-01-01

Awardees of the National Science Foundation's Noyce Scholars funds are required to teach science in high-need urban or rural school districts upon graduation. The purpose of this research was to analyze the reflective considerations that distinguish preservice Noyce Scholar science education majors committed to teaching in high-need New York City…

Process-Oriented Guided Inquiry Learning Strategy Enhances Students’ Higher Level Thinking Skills in a Pharmaceutical Sciences Course

PubMed Central

Verlinden, Nathan; Kruger, Nicholas; Carroll, Ailey; Trumbo, Tiffany

2015-01-01

Objective. To determine if the process-oriented guided inquiry learning (POGIL) teaching strategy improves student performance and engages higher-level thinking skills of first-year pharmacy students in an Introduction to Pharmaceutical Sciences course. Design. Overall examination scores and scores on questions categorized as requiring either higher-level or lower-level thinking skills were compared in the same course taught over 3 years using traditional lecture methods vs the POGIL strategy. Student perceptions of the latter teaching strategy were also evaluated. Assessment. Overall mean examination scores increased significantly when POGIL was implemented. Performance on questions requiring higher-level thinking skills was significantly higher, whereas performance on questions requiring lower-level thinking skills was unchanged when the POGIL strategy was used. Student feedback on use of this teaching strategy was positive. Conclusion. The use of the POGIL strategy increased student overall performance on examinations, improved higher-level thinking skills, and provided an interactive class setting. PMID:25741027

Teaching Experiences for Graduate Student Researchers: A Study of the Design and Implementation of Science Courses for Secondary Students

ERIC Educational Resources Information Center

Collins, Anne Wrigley

2011-01-01

Modern science education reform recommends that teachers provide K-12 science students a more complete picture of the scientific enterprise, one that lies beyond content knowledge and centers more on the processes and culture of scientists. In the case of Research Experience for Teachers (RET) programs, the "teacher" becomes "researcher" and it is…

Peer Assessment of Elementary Science Teaching Skills

ERIC Educational Resources Information Center

Kilic, Gulsen Bagci; Cakan, Mehtap

2007-01-01

In this study, peer assessment was applied in assessing elementary science teaching skills. Preservice teachers taught a science topic as a team to their peers in an elementary science methods course. The peers participating in the science lesson assessed teacher-groups' elementary science teaching skills on an assessment form provided by the…

The impact of a STS/Constructivist learning approach on the beliefs and attitudes of preservice science teachers

NASA Astrophysics Data System (ADS)

Akcay, Hakan

The purpose of this study was to determine the impact of an Science-Technology-Society (STS) course for preservice science teachers. The course was designed to change not only preservice science teachers' attitudes toward science, scientists and science courses, but also the awareness and use of STS/Constructivist approaches in teaching. It also focuses on changes in preservice science teachers regarding the effectiveness of an STS/Constructivist learning environment. Both qualitative and quantitative research methods were used with and a one-group pretest-posttest design. The instruments were administered to the preservice science teachers at the beginning of the semester as pre-tests and again at the end of the semester as post-tests. Data gathered from pre- and post-administration were analyzed for each of the instruments that provide answers to the research questions. The sample consists of forty-one pre-service science teachers who were enrolled in the Societal & Educational Applications of Biological Concepts course during the spring semester of the 2004 and 2005 academic years at the University of Iowa. The major findings for the study include the following: (1) Preservice science teachers showed significantly growth over the semester in their perceptions concerning STS/Constructivism, beliefs about science teaching and learning, and attitudes toward science and technology, and their implications for society. These significant changes were not affected by gender nor grade (elementary vs secondary) level. (2) Preservice science teachers gain in understanding of how students learn with STS/Constructivist approaches. They also increased their use of STS/Constructivist approaches which were developed and applied to teaching science for all students. (3) Preservice science teachers showed statistically significant growth toward an STS/Constructivist philosophy of science teaching and learning in terms of student actions in the classroom, as well as their increased understanding of science processes and content. (4) An STS/Constructivist approach provides student--centered learning environments that are relevant, motivational, and meaningful for preservice science teachers. Further, it encourages them to interact and to participate more actively in science classrooms.

Professionality of Junior High School (SMP) Science Teacher in Preparing Instructional Design of Earth and Space Sciences (IPBA)

NASA Astrophysics Data System (ADS)

Marlina, L.; Liliasari; Tjasyono, B.; Hendayana, S.

2017-02-01

The teacher is one important factor in the provision of education in schools. Therefore, improving the quality of education means we need to enhance the quality and the professionalism of teachers. We offer a solution through education and training of junior high school science teachers in developing the instructional design of Earth and Space Sciences (IPBA). IPBA is part of the science subjects which is given to students from elementary school to college. This research is a preliminary study of junior high school science teacher professionalism in creating instructional design IPBA. Mixed method design is used to design the research. Preliminary studies conducted on junior high school science teacher in one MGMPs in South Sumatera, and the respondent are 18 teachers from 13 schools. The educational background of science teachers who teach IPBA not only from physical education but also biology and agriculture. The result of preliminary study showed that the ratio of teachers who teach IPBA are 56% from physic education, 39% from biology, and 5% from agriculture. The subjects of IPBA that considered difficult by teachers are the distribution of sun, moon, and satellite motion; specific processes in lithosphere and atmosphere; and the correlation between lithosphere and atmosphere with the environment. The teachers also face difficulty in preparing media, choosing the right methods in teaching IPBA.

The transformation of science and mathematics content knowledge into teaching content by university faculty

NASA Astrophysics Data System (ADS)

Flynn, Natalie P.

This study developed a survey from the existing literature in an attempt to illuminate the processes, tools, insights, and events that allow university science and mathematics content experts (Ph.D.'s) unpack their expertise in order to teach develop and teach undergraduate students. A pilot study was conducted at an urban university in order to refine the survey. The study consisted of 72 science or mathematics Ph.D. faculty members that teach at a research-based urban university. Follow-up interviews were conducted with 21 volunteer faculty to further explore their methods and tools for developing and implementing teaching within their discipline. Statistical analysis of the data revealed: faculty that taught while obtaining their Ph.D. were less confident in their ability to teach successful and faculty that received training in teaching believed that students have difficult to change misconceptions and do not commit enough time to their course. Student centered textbooks ranked the highest among tools used to gain teaching strategies followed by grading of exams and assignments for gaining insights into student knowledge and difficulties. Science and mathematics education literature and university provided education session ranked the lowest in rating scale for providing strategies for teaching. The open-ended survey questions were sub-divided and analyzed by the number of years of experience to identify the development of teaching knowledge over time and revealed that teaching became more interactive, less lecture based, and more engaging. As faculty matured and gained experience they became more aware of student misconceptions and difficulties often changing their teaching to eliminate such issues. As confidence levels increase their teaching included more technology-based tools, became more interactive, incorporated problem based activities, and became more flexible. This change occurred when and if faculty members altered their thinking about their knowledge from an expert centered perspective to a student centric view. Follow-up interviews of twenty faculty yielded a wide variety of insights into the complicated method of deconstructing expert science and mathematics content. The interviews revealed a major disconnect between education research and researchers and the science and mathematics content experts who teach. There is a pervasive disregard for science and mathematics education and training. Faculty members find little to no support for teaching. Though 81% obtained their Ph.D. with the intent to enter an academic setting, pedagogical training was non-existent or limited, both prior to and after obtaining faculty positions. Experience alone did not account for confidence or ability to successfully teach. Faculty that were able to 'think like a student' and view their material from a student's perspective' seemed to be the most confident and flexible in their teaching methods. Grading and having an open and interactive teaching style, being on the 'side of the students' also seemed to allow faculty to connect more deeply with the students and learn about common misconceptions and difficulties. Though most faculty claimed to not teach as they were taught and not recall having specific content difficulties, this essential interaction with many students facilitated a shift in thinking about their content. This shift allowed for a reversal from teacher centered classrooms to student centered. Multiple issues arise when teaching at a traditional larger lecture style found in the majority of universities science and mathematics courses that constrain and provide unique teaching challenges. Many faculty have developed unique tools to incorporate successful teaching strategies, such as daily pre-quizzes and smart-phone questioning as well as small group work, computer posted guides, strategic class breaks, and limiting lecture style in favor of a more active engaged classroom. (Abstract shortened by UMI.).

Teaching Dissent and Persuasion

ERIC Educational Resources Information Center

Carson, Kathleen M.; Hodgen, Brian; Glaser, Rainer E.

2006-01-01

Teaching philosophy should be based on the desired outcome of the teaching. In the case of science education, the guiding principle for a teaching philosophy should start with the desire to help students understand and use science, regardless of their major or profession. To effectively teach students how to understand science, one must include…

Science As A Second Language: Acquiring Fluency through Science Enterprises

NASA Astrophysics Data System (ADS)

Shope, R.; EcoVoices Expedition Team

2013-05-01

Science Enterprises are problems that students genuinely want to solve, questions that students genuinely want to answer, that naturally entail reading, writing, investigation, and discussion. Engaging students in personally-relevant science enterprises provides both a diagnostic opportunity and a context for providing students the comprehensible input they need. We can differentiate instruction by creating science enterprise zones that are set up for the incremental increase in challenge for the students. Comprehensible input makes reachable, those just-out-of-reach concepts in the mix of the familiar and the new. EcoVoices takes students on field research expeditions within an urban natural area, the San Gabriel River Discovery Center. This project engages students in science enterprises focused on understanding ecosystems, ecosystem services, and the dynamics of climate change. A sister program, EcoVoces, has been launched in Mexico, in collaboration with the Universidad Loyola del Pacífico. 1) The ED3U Science Inquiry Model, a learning cycle model that accounts for conceptual change: Explore { Diagnose, Design, Discuss } Use. 2) The ¿NQUIRY Wheel, a compass of scientific inquiry strategies; 3) Inquiry Science Expeditions, a way of laying out a science learning environment, emulating a field and lab research collaboratory; 4) The Science Educative Experience Scale, a diagnostic measure of the quality of the science learning experience; and 5) Mimedia de la Ciencia, participatory enactment of science concepts using techniques of mime and improvisational theater. BACKGROUND: Science has become a vehicle for teaching reading, writing, and other communication skills, across the curriculum. This new emphasis creates renewed motivation for Scientists and Science Educators to work collaboratively to explore the common ground between acquiring science understanding and language acquisition theory. Language Acquisition is an informal process that occurs in the midst of exploring, solving problems, seeking answers to questions, playing, reading for pleasure, conversing, discussing, where the focus is not specifically on language development, but on the activity, which is of interest to the participant. Language Learning is a formal education process, the language arts aspect of the school day: the direct teaching of reading, writing, grammar, spelling, and speaking. Fluency results primarily from language acquisition and secondarily from language learning. We can view the problem of science education and communication as similar to language acquisition. Science Learning is a formal education process, the school science aspect of the school day: the direct teaching of standards-aligned science content. Science Acquisition is an informal process that occurs in the midst of exploring, solving problems, seeking answers to questions, playing, experimenting for pleasure, conversing, discussing, where the focus is not specifically on science content development, but on the inquiry activity, driven by the curiosity of the participant. Treating Science as a Second Language shifts the evaluation of science learning to include gauging the extent to which students choose to deepen their pursuit of science learning.

Influencing Science Teaching Self-Efficacy Beliefs of Primary School Teachers: A Longitudinal Case Study

ERIC Educational Resources Information Center

McKinnon, Merryn; Lamberts, Rod

2014-01-01

The science teaching self-efficacy beliefs of primary school teachers influence teaching practice. The purpose of this research was to determine if informal education institutions, such as science centres, could provide professional development that influences the science teaching self-efficacy beliefs of pre-service and in-service primary school…

Affecting Primary Science: A Case from the Early Years.

ERIC Educational Resources Information Center

Watts, Mike; Walsh, Amanda

1997-01-01

Claims that there is a "down-drift" in the teaching of science, with even preschools now obligated to teach science content. Investigates (through one teacher's diary) how primary teachers interact with scientific teachings and how they can best be inducted into the teaching and learning of science. Concludes that incorporating personal…

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.

Highly qualified does not equal high quality: A study of urban stakeholders' perceptions of quality in science teaching

NASA Astrophysics Data System (ADS)

Miranda, Rommel Joseph

By employing qualitative methods, this study sought to determine the perceptions that urban stakeholders hold about what characteristics should distinguish a high school science teacher whom they would consider to demonstrate high quality in science teaching. A maximum variation sample of six science teachers, three school administrators, six parents and six students from a large urban public school district were interviewed using semi-structured, in-depth interview techniques. From these data, a list of observable characteristics which urban stakeholders hold as evidence of high quality in science teaching was generated. Observational techniques were utilized to determine the extent to which six urban high school science teachers, who meet the NCLB Act criteria for being "highly qualified", actually possessed the characteristics which these stakeholders hold as evidence of high quality in science teaching. Constant comparative analysis was used to analyze the data set. The findings suggest that urban stakeholders perceive that a high school science teacher who demonstrates high quality in science teaching should be knowledgeable about their subject matter, their student population, and should be resourceful; should possess an academic background in science and professional experience in science teaching; should exhibit professionalism, a passion for science and teaching, and a dedication to teaching and student learning; should be skillful in planning and preparing science lessons and in organizing the classroom, in presenting the subject matter to students, in conducting a variety of hands-on activities, and in managing a classroom; and should assess whether students complete class goals and objectives, and provide feedback about grades for students promptly. The findings further reveal that some of the urban high school science teachers who were deemed to be "highly qualified", as defined by the NCLB Act, engaged in practices that threatened quality in science teaching and often failed to display the characteristics which urban stakeholders hold as evidence of high quality in science teaching. Thus, the criteria for "highly qualified" prescribed by policy makers and politicians do not necessarily translate into effective science teaching in urban settings. These findings emphasize the importance of stakeholder involvement in the design of educational reform initiatives.

A Course on Plasma Processing in Integrated Circuit Fabrication.

ERIC Educational Resources Information Center

Sawin, Herbert H.; Reif, Rafael

1983-01-01

Describes a course, taught jointly by electrical/chemical engineering departments at the Massachusetts Institute of Technology, designed to teach the fundamental science of plasma processing as well as to give an overview of the present state of industrial processes. Provides rationale for course development, texts used, class composition, and…

Comprendre le processus d'adaptation des demarches d'enseignement en classe de sciences et technologies a l'ecole secondaire: Analyse des besoins percus par les personnes enseignantes en milieu defavorise

NASA Astrophysics Data System (ADS)

Houde, Sylvie

Since the implementation of the latest reform in the education programs of Quebec, the adaptation of teaching has taken on an important place in the concerns of all actors in education. However, this adjustment towards the adoption of teaching practices that require more participation on the part of the pupil is not accomplished so easily, particularly in the field of science and technology (ST). In order to gain a better understanding of these processes of adaptation, it is opportune to question ourselves on the factors and dynamics of interest at stake, especially in disadvantaged environments. Such environments are faced with situations where other difficulties coexist: integration of pupils, lack of interest, problems in classroom management, multi-ethnicity, etc. As a result, such difficulties give rise to particular limitations, expressed in the form of needs, by pupils and teachers, likely to have a restrictive effect on the adaptation of teaching practices. Accordingly, our research focuses on the needs perceived by teachers in high school ST classrooms in disadvantaged school environments, since they present a privileged means to better understand the processes involved in the adaptation of practices. The adoption of an ecosystemic perspective, centered on these needs and their contribution towards the dynamics of decision-making, enabled us to better apprehend the complexity of these processes in ST classrooms. We were able to identify the needs perceived by teachers by following the methodology of conceptanalysis of needs, and by combining focus groups with the DRAP software. The results account for the large variety of needs to be considered in the equation of adaptation of teaching practices. These needs generally belong to the classroom system (microsystem). For pupils, they are mainly cognitive needs, but for teachers, they pertain to organization and structure. The influence of these needs on the adaptation processes depends on the interpretation by teachers of teaching situations, so much so that a same need can at times be assumed as negative pressure, generating obstacles, or at other times as a positive impulse, facilitating adaptation. Keywords: teaching practices; science and technology education; high school education; adaptation processes; needs assessment; disadvantaged environments.

Virtual Visualisation Laboratory for Science and Mathematics Content (Vlab-SMC) with Special Reference to Teaching and Learning of Chemistry

NASA Astrophysics Data System (ADS)

Badioze Zaman, Halimah; Bakar, Norashiken; Ahmad, Azlina; Sulaiman, Riza; Arshad, Haslina; Mohd. Yatim, Nor Faezah

Research on the teaching of science and mathematics in schools and universities have shown that available teaching models are not effective in instilling the understanding of scientific and mathematics concepts, and the right scientific and mathematics skills required for learners to become good future scientists (mathematicians included). The extensive development of new technologies has a marked influence on education, by facilitating the design of new learning and teaching materials, that can improve the attitude of learners towards Science and Mathematics and the plausibility of advanced interactive, personalised learning process. The usefulness of the computer in Science and Mathematics education; as an interactive communication medium that permits access to all types of information (texts, images, different types of data such as sound, graphics and perhaps haptics like smell and touch); as an instrument for problem solving through simulations of scientific and mathematics phenomenon and experiments; as well as measuring and monitoring scientific laboratory experiments. This paper will highlight on the design and development of the virtual Visualisation Laboratory for Science & Mathematics Content (VLab-SMC) based on the Cognitivist- Constructivist-Contextual development life cycle model as well as the Instructional Design (ID) model, in order to achieve its objectives in teaching and learning. However, this paper with only highlight one of the virtual labs within VLab-SMC that is, the Virtual Lab for teaching Chemistry (VLab- Chem). The development life cycle involves the educational media to be used, measurement of content, and the authoring and programming involved; whilst the ID model involves the application of the cognitivist, constructivist and contextual theories in the modeling of the modules of VLab-SMC generally and Vlab-Chem specifically, using concepts such as 'learning by doing', contextual learning, experimental simulations 3D and real-time animations to create a virtual laboratory based on a real laboratory. Initial preliminary study shows positive indicators of VLab-Chem for the teaching and learning of Chemistry on the topic of 'Salts and Acids'.

Turkish Preservice Elementary Science Teachers' Conceptions of Learning Science and Science Teaching Efficacy Beliefs: Is There a Relationship?

ERIC Educational Resources Information Center

Bahcivan, Eralp; Kapucu, Serkan

2014-01-01

This study has been conducted to investigate conceptions of learning science (COLS) and personal science teaching efficacy belief (PSTE) of Turkish preservice elementary science teachers (PSTs) and to explore the relationship between these variables. Two instruments COLS questionnaire and PSTE subscale of Science Teaching Efficacy Beliefs…

Going deeper: teaching more than the mechanics

NASA Astrophysics Data System (ADS)

Bruck, R. A.

2013-02-01

What follows is a description of an introductory holography course titled "Lasers and Holography," taught by the author at Columbia College Chicago since 1997. Because this is a science class at an arts college with an open admissions policy, these students have many different levels of education, dissimilar backgrounds, and varied fields of interest. There are few science majors. Therefore, specific learning objectives are developed. The author contends that for many of these students it is not enough to teach the physics of making holograms. To inspire and instill a lifelong appreciation for science and physics, one must go still deeper. Students need to be touched on more than just an intellectual level. Consequently, a broader approach is used. Ultimately, it may stir students to want to learn more, and to be confident they can. The paper addresses: 1) Becoming aware of one's individual state of seeing 2) Perceptual illusions: their impact on the advancement of science 3) Promoting artistic applications and exposing students to fine art holography 4) Teaching holography as an information processing, as well as an image-making technology 5) Introducing and exploring philosophical implications of holographic principles.

Controversy in Biology Classrooms-Citizen Science Approaches to Evolution and Applications to Climate Change Discussions.

PubMed

Yoho, Rachel A; Vanmali, Binaben H

2016-03-01

The biological sciences encompass topics considered controversial by the American public, such as evolution and climate change. We believe that the development of climate change education in the biology classroom is better informed by an understanding of the history of the teaching of evolution. A common goal for science educators should be to engender a greater respect for and appreciation of science among students while teaching specific content knowledge. Citizen science has emerged as a viable yet underdeveloped method for engaging students of all ages in key scientific issues that impact society through authentic data-driven scientific research. Where successful, citizen science may open avenues of communication and engagement with the scientific process that would otherwise be more difficult to achieve. Citizen science projects demonstrate versatility in education and the ability to test hypotheses by collecting large amounts of often publishable data. We find a great possibility for science education research in the incorporation of citizen science projects in curriculum, especially with respect to "hot topics" of socioscientific debate based on our review of the findings of other authors. Journal of Microbiology & Biology Education.

Investigating How Nontraditional Elementary Pre-service Teachers Negotiate the Teaching of Science

NASA Astrophysics Data System (ADS)

Shelton, Mythianne

This qualitative study was designed to investigate the influences on nontraditional preservice teachers as they negotiated the teaching of science in elementary school. Based upon a sociocultural theoretical framework with an identity-in-practice lens, these influences included beliefs about science teaching, life experiences, and the impact of the teacher preparation program. The study sample consisted of two nontraditional preservice teachers who were student teaching in an elementary classroom. Data, collected over a five-month period, included in-depth individual interviews, classroom observations, audio recordings, and reviews of documentations. Interviews focused on the participants' beliefs relating to the teaching of science, prior experiences, and their teacher preparation program experiences relating to the teaching of science. Classroom observations provided additional insights into the classroom setting, participants' teaching strategies, and participants' interactions with the students and cooperating teacher. A whole-text analysis of the interview transcripts, observational field notes, audio recordings and documents generated eight major categories: beliefs about science teaching, role of family, teaching science in the classroom, teacher identity, non-teacher identity, relationships with others, discourses of classroom teaching, and discourses of teachers. The following significant findings emerged from the data: (a) the identity of nontraditional student teachers as science teachers related to early life experiences in science classes; (b) the identity of nontraditional student teachers as science teachers was influenced by their role as parents; (c) nontraditional student teachers learned strategies that supported their beliefs about inquiry learning; and (d) nontraditional student teachers valued the teacher preparation program support system. The results from this qualitative study suggest that sociocultural theory with an identity-in-practice lens provides a theoretical framework for understanding the influences that affect why nontraditional preservice teachers select strategies to teach science in the elementary classroom.

Preservice elementary teachers' personal science teaching efficacy and science teaching outcome expectancies: The influence of student teaching

NASA Astrophysics Data System (ADS)

Plourde, Lee Alton

This study was unique in garnering an early view at how the deterioration of science teacher education begins. This investigation examined the impact of the student teaching semester on preservice elementary teachers' personal efficacy beliefs and outcome expectancy beliefs in science teaching. Participants in the study included the student teachers of three separate cohort groups commencing and completing their student teaching semester at the same time. Qualitative data were gathered from interviews and observations from selected individuals of these cohort groups. Quantitative and qualitative research methods were employed in the study. Utilizing a pretest and posttest one group research design, quantitative data were obtained from the administration of a psychometric test, Science Teaching Efficacy Belief Instrument for preservice teachers (STEBI-B). The pretest was administered at the beginning of the student teaching semester, before the student teachers began their "soloing" teaching, and the posttest was administered at the completion of the student teaching semester and "soloing" period. Qualitative data were derived from interviews and observations which were audio recorded and transcribed. The results of this study revealed that the student teaching semester did not have a statistically significant impact on the subjects' sense of personal self-efficacy, but the influence was statistically significant in regards to the student teachers' beliefs about children's ability to learn science. Data gathered through interviews and observations suggested that beliefs appear to originate from one or more of the following: a lack of practical work, personal involvement, and hands-on manipulation in science related activities in elementary, secondary, and tertiary education; a dependence of science courses on textbooks and lectures; the dispassionate association with science teachers/instructors; a focus on formalized tests with no performance assessments; the lethargical attitude towards the teaching of science by inservice/mentor teachers; and the need for relevancy to personal lives. Additional results shed light onto the barriers and roadblocks encountered by student teachers when attempting to teach science to elementary students. Thew highlighted factors, along with the identification of elements which contribute to the effective teaching of elementary science, are thoroughly discussed.

Teaching Ethics in Science.

ERIC Educational Resources Information Center

Reiss, Michael

1999-01-01

Summarizes arguments for and against teaching ethics within science education, and clarifies what might be the several aims of teaching ethics in science. Discusses how ethics instruction might be incorporated into the science curriculum. (Contains 120 references.) (WRM)

Teaching earth science

USGS Publications Warehouse

Alpha, Tau Rho; Diggles, Michael F.

1998-01-01

This CD-ROM contains 17 teaching tools: 16 interactive HyperCard 'stacks' and a printable model. They are separated into the following categories: Geologic Processes, Earthquakes and Faulting, and Map Projections and Globes. A 'navigation' stack, Earth Science, is provided as a 'launching' place from which to access all of the other stacks. You can also open the HyperCard Stacks folder and launch any of the 16 stacks yourself. In addition, a 17th tool, Earth and Tectonic Globes, is provided as a printable document. Each of the tools can be copied onto a 1.4-MB floppy disk and distributed freely.

The effect of teacher education level, teaching experience, and teaching behaviors on student science achievement

NASA Astrophysics Data System (ADS)

Zhang, Danhui

Previous literature leaves us unanswered questions about whether teaching behaviors mediate the relationship between teacher education level and experience with student science achievement. This study examined this question with 655 students from sixth to eighth grade and their 12 science teachers. Student science achievements were measured at the beginning and end of 2006-2007 school year. Given the cluster sampling of students nested in classrooms, which are nested in teachers, a two-level multilevel model was employed to disentangle the effects from teacher-level and student-level factors. Several findings were discovered in this study. Science teachers possessing of advanced degrees in science or education significantly and positively influenced student science achievement. However, years of teaching experience in science did not directly influence student science achievement. A significant interaction was detected between teachers possessing an advanced degree in science or education and years of teaching science, which was inversely associated to student science achievement. Better teaching behaviors were also positively related to student achievement in science directly, as well as mediated the relationship between student science achievement and both teacher education and experience. Additionally, when examined separately, each teaching behavior variable (teacher engagement, classroom management, and teaching strategies) served as a significant intermediary between both teacher education and experience and student science achievement. The findings of this study are intended to provide insights into the importance of hiring and developing qualified teachers who are better able to help students achieve in science, as well as to direct the emphases of ongoing teacher inservice training.

Exploring the Place of Exemplary Science Teaching. This Year in School Science 1993.

ERIC Educational Resources Information Center

Haley-Oliphant, Ann E., Ed.

Exemplary science teaching is an experience that fosters wonder, excitement, and risk-taking. This book presents essays which attempt to describe the culture of classrooms of exemplary science teachers. Chapter titles are: "Exploring the Place of Exemplary Science Teaching" (Ann E. Haley-Oliphant); "The Voices of Exemplary Science Teachers" (Ann…

Three-Dimensional Instruction: Using a New Type of Teaching in the Science Classroom

ERIC Educational Resources Information Center

Krajcik, Joe

2015-01-01

Science teaching and learning in the United States are at a pivotal point. "A Framework for K-12 Science Education" (NRC 2012b) and the "Next Generation Science Standards" ("NGSS"; NGSS Lead States 2013) shift science educators' focus from simply teaching science ideas to helping students figure out phenomena and…

Florida and Puerto Rico Secondary Science Teachers' Knowledge and Teaching of Climate Change Science

ERIC Educational Resources Information Center

Herman, Benjamin C.; Feldman, Allan; Vernaza-Hernandez, Vanessa

2017-01-01

Misconceptions about climate change science are pervasive among the US public. This study investigated the possibility that these misconceptions may be reflective of science teachers' knowledge and teaching of climate change science. Florida and Puerto Rico secondary science teachers who claim to teach extensively about climate change were…

Sources of Science Teaching Self-Efficacy for Preservice Elementary Teachers in Science Content Courses

ERIC Educational Resources Information Center

Menon, Deepika; Sadler, Troy D.

2018-01-01

Self-efficacy beliefs play a major role in determining teachers' science teaching practices and have been a topic of great interest in the area of preservice science teacher education. This qualitative study investigated factors that influenced preservice elementary teachers' science teaching self-efficacy beliefs in a physical science content…

Nature of worldview presuppositions among science teachers in botswana, indonesia, japan, nigeria, and the philippines

NASA Astrophysics Data System (ADS)

Ogunniyi, Meshach B.; Jegede, Olugbenro J.; Ogawa, Masakata; Yandila, Cephas D.; Oladele, Femi K.

The focus of this study was to identify the nature of worldview presuppositions held by a group of science teachers from five non-western cultures. The results show that the subjects, irrespective of their cultural backgrounds, hold identical worldview presuppositions. It is not clear at this exploratory stage to what extent the subjects' alternative viewpoints influenced their scientific outlook or their science teaching. However, an analysis of the subjects' viewpoints suggests either poor conceptualizations of the nature of science or a form of collateral thinking, whereby an individual accepts or uses both mechanistic and anthropomorphic explanations depending on the context in question and without exhibiting any sign of cognitive dissonance. The implications of such a scenario for the teaching-learning process are highlighted.Received: 14 April 1993; Revised: 15 September 1994;

The Effects of Science Models on Students' Understanding of Scientific Processes

NASA Astrophysics Data System (ADS)

Berglin, Riki Susan

This action research study investigated how the use of science models affected fifth-grade students' ability to transfer their science curriculum to a deeper understanding of scientific processes. This study implemented a variety of science models into a chemistry unit throughout a 6-week study. The research question addressed was: In what ways do using models to learn and teach science help students transfer classroom knowledge to a deeper understanding of the scientific processes? Qualitative and quantitative data were collected through pre- and post-science interest inventories, observations field notes, student work samples, focus group interviews, and chemistry unit tests. These data collection tools assessed students' attitudes, engagement, and content knowledge throughout their chemistry unit. The results of the data indicate that the model-based instruction program helped with students' engagement in the lessons and understanding of chemistry content. The results also showed that students displayed positive attitudes toward using science models.

Exploring what contributes to the knowledge development of secondary physics and physical science teachers in a continuous professional development context

NASA Astrophysics Data System (ADS)

Nelms, April Wagnon

This dissertation used qualitative methodologies, specifically phenomenological research, to investigate what contributes to the development of pedagogical content knowledge (PCK) of physics and physical science teachers who participate in a content-specific continuous professional development program. There were five participants in this study. The researcher conducted participant observations and interviews, rated participants degree of reformed teaching practices using the Reformed Teaching Observation Protocol, surveyed participants' self-efficacy beliefs using the Science Teacher Efficacy Belief Instrument "A," and rated participants'' level of PCK using the PCK Rubrics.. All data were analyzed, and a composite description of what contributes to physics and physical science teachers' PCK development through a continuous professional development program emerged. A theory also emerged from the participants' experiences pertaining to how teachers' assimilate new conditions into their existing teaching schema, how conditions change teachers' perceptions of their practice, and outcomes of teachers' new ideas towards their practice. This study contributed to the literature by suggesting emergent themes and a theory on the development of physics and physical science teachers' PCK. PCK development is theorized to be a spiral process incorporating new conditions into the spiral as teachers employ new science content knowledge and pedagogical practices in their individual classroom contexts.

Anatomy teaching assistants: facilitating teaching skills for medical students through apprenticeship and mentoring.

PubMed

Lachman, Nirusha; Christensen, Kevin N; Pawlina, Wojciech

2013-01-01

Significant increase in the literature regarding "residents as teachers" highlights the importance of providing opportunities and implementing guidelines for continuing medical education and professional growth. While most medical students are enthusiastic about their future role as resident-educators, both students and residents feel uncomfortable teaching their peers due to the lack of necessary skills. However, whilst limited and perhaps only available to select individuals, opportunities for developing good teaching practice do exist and may be identified in courses that offer basic sciences. The Department of Anatomy, College of Medicine, Mayo Clinic offers a teaching assistant (TA) elective experience to third- and fourth-year medical students through integrated apprenticeship and mentoring during the human structure didactic block. This article, aims to describe a curriculum for a TA elective within the framework of a basic science course through mentoring and apprenticeship. Opportunities for medical students to become TAs, process of TAs' recruitment, mentoring and facilitation of teaching and education research skills, a method for providing feedback and debriefing are described. Developing teaching practice based on apprenticeship and mentoring lends to more accountability to both TA's and course faculty by incorporating universal competencies to facilitate the TA experience.

Does outsourcing paramedical departments of teaching hospitals affect educational status of the students?

PubMed

Moslehi, Shandiz; Atefimanesh, Pezhman; Sarabi Asiabar, Ali; Ahmadzadeh, Nahal; Kafaeimehr, Mohamadhosein; Emamgholizadeh, Saeid

2016-01-01

There is an increasing trend of outsourcing public departments. Teaching hospitals also outsourced some of their departments to private sectors. The aim of this study was to investigate and compare the educational status of students in public and outsourced departments of teaching hospitals affiliated to Iran University of Medical Sciences. This study was conducted in six teaching hospitals of Iran University of Medical Sciences, which had public and outsourced teaching departments in 2015. One hundred fifty students from the departments of radiology, physiotherapy and laboratory participated in this study and their perceptions about their educational status were assessed. A valid and reliable questionnaire was used; participation in the study was voluntary. Descriptive statistics such as mean (SD), t-test and Kolmogorov-Smirnov were used. No difference was detected between the educational status of students in public and outsourced departments of radiology, physiotherapy and laboratory (p>0.05). Based on the students' perception, the private sectors could maintain the educational level of the teaching departments similar to the public departments. It is recommended to involve all the stakeholders such as hospital administrators, academic staff and students in the decision- making process when changes in teaching environments are being considered.

Science-for-Teaching Discourse in Science Teachers' Professional Learning Communities

NASA Astrophysics Data System (ADS)

Lohwasser, Karin

Professional learning communities (PLCs) provide an increasingly common structure for teachers' professional development. The effectiveness of PLCs depends on the content and quality of the participants' discourse. This dissertation was conducted to add to an understanding of the science content needed to prepare to teach science, and the discourse characteristics that create learning opportunities in teachers' PLCs. To this end, this study examined how middle school science teachers in three PLCs addressed science-for-teaching, and to what effect. Insight into discourse about content knowledge for teaching in PLCs has implications for the analysis, interpretation, and support of teachers' professional discourse, their collaborative learning, and consequently their improvement of practice. This dissertation looked closely at the hybrid space between teachers' knowledge of students, of teaching, and of science, and how this space was explored in the discourse among teachers, and between teachers and science experts. At the center of the study were observations of three 2-day PLC cycles in which participants worked together to improve the way they taught their curriculum. Two of the PLC cycles were supported, in part, by a science expert who helped the teachers explore the science they needed for teaching. The third PLC worked without such support. The following overarching questions were explored in the three articles of this dissertation: (1) What kind of science knowledge did teachers discuss in preparation for teaching? (2) How did the teachers talk about content knowledge for science teaching, and to what effect for their teaching practice? (3) How did collaborating teachers' discursive accountabilities provide opportunities for furthering the teachers' content knowledge for science teaching? The teachers' discourse during the 2-day collaboration cycles was analyzed and interpreted based on a sociocultural framework that included concepts from the practice-based theory of content knowledge for teaching developed by D. L. Ball, Thames, and Phelps (2008) and the Accountable Talk framework by Michaels, O'Connor, & Resnick (2008). The study's findings could provide justification for and ideas on how to provide targeted support for PLCs to make teachers' work on science knowledge more applicable to lesson planning, teaching, and student learning.

Learning, Unlearning and Relearning--Knowledge Life Cycles in Library and Information Science Education

ERIC Educational Resources Information Center

Bedford, Denise A. D.

2015-01-01

The knowledge life cycle is applied to two core capabilities of library and information science (LIS) education--teaching, and research and development. The knowledge claim validation, invalidation and integration steps of the knowledge life cycle are translated to learning, unlearning and relearning processes. Mixed methods are used to determine…

Devising Your Own Investigations Using Common Classroom and Household Materials.

ERIC Educational Resources Information Center

Wentworth, Daniel F.

Many elementary classroom teachers must overcome the following problems in order to teach science effectively: (1) a lack of background in scientific concepts and general information; (2) a scarcity of science equipment and supplies on hand or insufficient funds to purchase them; (3) little basic knowledge of the skills, processes and attitudes…

Teaching Science and Mathematics to At Risk Students. ERIC Digest.

ERIC Educational Resources Information Center

Schwartz, Wendy

Traditionally, disadvantaged groups, such as women and minorities, have not excelled in science and math. Often the lack of literacy and achievement in these subjects is due to the following factors: (1) cognitive differences between how the information is presented and how the students process it; (2) lack of familiarity, because of cultural…

Picture Science: Using Digital Photography to Teach Young Children

ERIC Educational Resources Information Center

Neumann-Hinds, Carla

2007-01-01

Young children love to investigate the natural world, and they love to take photographs. "Picture Science" goes beyond just documenting class projects. The book shows how to use digital photography to make each step in the scientific process--from posing a question, to gathering data, to showing findings--concrete and fun for children. Keyed…

The Design and Validation of an Early Childhood STEM Classroom Observational Protocol

ERIC Educational Resources Information Center

Milford, Todd; Tippett, Christine

2015-01-01

Across K-12 education, there has been recent attention to the learning opportunities available to students in science, technology, engineering, and mathematics (STEM) learning. Early childhood education (ECE) has been excluded from this process. The scholarly literature contains good evidence for including science teaching and learning at the ECE…

Political Science and Speech Communication--A Team Approach to Teaching Political Communication.

ERIC Educational Resources Information Center

Blatt, Stephen J.; Fogel, Norman

This paper proposes making speech communication more interdisciplinary and, in particular, combining political science and speech in a team-taught course in election campaigning. The goals, materials, activities, and plan of such a course are discussed. The goals include: (1) gaining new insights into the process of contemporary campaigns and…

Science Education in Primary Schools: Is an Animation Worth a Thousand Pictures?

ERIC Educational Resources Information Center

Barak, Miri; Dori, Yehudit J.

2011-01-01

Science teaching deals with abstract concepts and processes that very often cannot be seen or touched. The development of Java, Flash, and other web-based applications allow teachers and educators to present complex animations that attractively illustrate scientific phenomena. Our study evaluated the integration of web-based animated movies into…

Using Art To Teach Science.

ERIC Educational Resources Information Center

Winrich, Ralph A.

This booklet describes 14 student art projects to be used in science classes. Creative skills involved in the process of artistic expression seem to translate very well into the problem solving world of technology. Even in the elementary level it can help build confidence, as well as the development of abstract skills that so often lead to…

Perspective of Lecturers in Implementing PISMP Science Curriculum in Malaysia's IPG

ERIC Educational Resources Information Center

Yahya, Fauziah Hj; Bin Hamdan, Abdul Rahim; Jantan, Hafsah Binti; Saleh, Halimatussadiah Binti

2015-01-01

The article aims to identify lecturers' perspectives in implementing PISMP science curriculum in IPG Malaysia based on teaching experience with KIPP model. The respondents consisted of 105 lecturers from 20 IPG Malaysia. The study used a questionnaire consisting of 74 items covering the four dimensions (Context, Input, Process and Product). Data…

The Kitchen as a Physics Classroom

ERIC Educational Resources Information Center

Rowat, Amy C.; Sinha, Naveen N.; Sörensen, Pia M.; Campàs, Otger; Castells, Pere; Rosenberg, Daniel; Brenner, Michael P.; Weitz, David A.

2014-01-01

Cooking is a tangible, familiar, and delicious tool for teaching physics, which is easy to implement in a university setting. Through our courses at Harvard and UCLA, each year we are engaging hundreds of undergraduate students, primarily non-science majors, in science concepts and the scientific research process. We find that weekly lectures by…

Approaches to Inquiry Teaching: Elementary Teachers' Perspectives

ERIC Educational Resources Information Center

Ireland, Joseph; Watters, James J.; Lunn Brownlee, J.; Lupton, Mandy

2014-01-01

Learning science through the process of inquiry is advocated in curriculum documents across many jurisdictions. However, a number of studies suggest that teachers struggle to help students engage in inquiry practices. This is not surprising as many teachers of science have not engaged in scientific inquiry and possibly hold naïve ideas about what…

Using a Guided Inquiry Approach in the Traditional Vertebrate Anatomy Laboratory

ERIC Educational Resources Information Center

Meuler, Debra

2008-01-01

A central theme of the "National Science Education Standards" is teaching science as an inquiry process, allowing students to explore an authentic problem using the tools and skills of the discipline. Research indicates that more active participation by the student, which usually requires higher-order thinking skills, results in deeper learning.…

Sciencewise: Discovering Scientific Process through Problem Solving. Book 3.

ERIC Educational Resources Information Center

Holley, Dennis

This science activity book, for grades 8-12, can be used to teach students the thinking skills they will need to undertake scientific exploration on their own. The skills they develop will improve their science abilities and enhance their overall academic performance. This book is divided into two sections: (1) "Dynamo Demos", teacher-led…

The implementation of integrated science teaching materials based socio-scientific issues to improve students scientific literacy for environmental pollution theme

NASA Astrophysics Data System (ADS)

Yenni, Rita; Hernani, Widodo, Ari

2017-05-01

The study aims to determine the increasing of students' science literacy skills on content aspects and competency of science by using Integrated Science teaching materials based Socio-scientific Issues (SSI) for environmental pollution theme. The method used in the study is quasi-experiment with nonequivalent pretest and posttest control group design. The students of experimental class used teaching materials based SSI, whereas the students of control class were still using the usual textbooks. The result of this study showed a significant difference between the value of N-gain of experimental class and control class, whichalso occurred in every indicator of content aspects and competency of science. This result indicates that using of Integrated Science teaching materials based SSI can improve content aspect and competency of science and can be used as teaching materials alternative in teaching of Integrated Science.