Relationships Between Classroom Behavior and Cognitive Development Characteristics in Elementary School Children

ERIC Educational Resources Information Center

Good, Ron; And Others

1976-01-01

Studied classroom behaviors and conservation ability of elementary school science students taught by either Student-Structured Learning in Science (SSLS) or Teacher-Structured Learning in Science (TSLS). Reports on how behavior of conservers and nonconservers differs in SSLS and TSLS with respect to observing, following directions, and inventing…

Perceived Teacher Factors in Relation to Students' Achievement-Related Outcomes in Science Classrooms in Elementary School

ERIC Educational Resources Information Center

Sakiz, Gönül

2015-01-01

The purpose of the current study was to investigate the roles that perceived teacher affective support (PTAS), perceived teacher mastery goal orientation (PTMGO), academic emotions, self-efficacy and behavioural engagement play on students' science achievement in elementary school science classrooms. The potential relations of different levels of…

Effects of Sustained Teacher Professional Development on the Classroom Science Instruction of Elementary School Teachers

ERIC Educational Resources Information Center

Hauck, Nancy

2012-01-01

The purpose of this study was to determine the extent to which sustained teacher professional development in science education affects the classroom instruction of elementary school teachers in third through sixth grade over a 3-year period. The teachers in the study were all elementary endorsed and prepared to be generalists in the content areas.…

Seeing things through science eyes: A case study of an exemplary elementary teacher

NASA Astrophysics Data System (ADS)

Foster, Andrea Susan

Science-eyed elementary teachers exhibit relentless passions for replacing traditional teaching with realistic, integrated, responsible instruction with science at its core. The purpose of this study was to explore an exemplary elementary teacher's thinking about science and how it serves as a vehicle for the learning that occurs in her primary classroom. Two research questions were investigated in this study. First, what does it mean for an exemplary elementary teacher to view all learning with science eyes? Second, in what ways does the science-oriented elementary teacher use her knowledge of science content, pedagogy, and practical experience to structure her students' learning and her classroom teaching? A naturalistic methodology was employed in this research effort. Classroom observations, teacher interviews, documents, and selected artifacts were analyzed using a constant comparative method (Glaser & Strauss, 1967; Lincoln & Guba, 1985) and the analysis tools of HyperRESEARCH (1994) in an effort to unravel the complex, intuitive knowledge of a nationally recognized first grade teacher. Data analyses provided insightful information about this exceptional teacher and how she organizes, plans, and implements effective lessons that integrate science with all subject areas. Four direct observation themes, Best Practice, Just Like a Scientist, Integrating Curriculum - A Balancing Act, and Expert Pedagogy, and six interview themes, Curriculum - What to Teach?, Instruction - How to Teach, Knowing Students, Getting Stuff, Professionalism, and Reflective Practitioner, emerged from independent analyses of two data sets. Three overall themes, Head, Heart, and Hands of an Exemplary Science Elementary Teacher, emerged from a convergent content analysis. The themes provide the foundation for a proposed model of an expert science pedagogue. Ten portrait-like, impressionistic, vignettes are included in this unique study to capture the spirit of the science-eyed elementary teacher's outstanding work in her first-grade classroom. Conclusions indicate that an in-depth knowledge and genuine passion for science, students, and teaching drives science-eyed teachers. The science-eyed elementary teacher organizes curriculum and instruction with scientific principles and skills of inquiry in mind. She improvises lessons to meet students' needs and interests in science. The science-eyed elementary teacher seeks out other science-eyed teachers. She is unique, inventive, and self aware.

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.

Issues in Science Assessment in a Bilingual/Biliterate Elementary Classroom.

ERIC Educational Resources Information Center

Karpel, Jennifer A.; Abell, Sandra K.

This study examines the types, uses, and roles of science assessment in a bilingual/biliterate (Spanish/English) elementary classroom in the Honduras during one unit of science instruction. Focus is placed on how one teacher used assessment to a) inform practice; b) evaluate student learning; and c) modify curricula and teaching strategies to meet…

Elementary Students Using a Tablet-Based Note-Taking Application in the Science Classroom

ERIC Educational Resources Information Center

Paek, Seungoh; Fulton, Lori A.

2016-01-01

This exploratory study investigates the potential of a tablet-based note-taking application (TbNA) to serve as a digital notebook in support of students' classroom science practices. An elementary teacher (Grades 4-5) from a public charter school integrated a TbNA into her science class for one semester while participating in professional…

Animals in the Classroom: A Guide for Elementary and Secondary Educators.

ERIC Educational Resources Information Center

Birkholz, Elaine; Theran, Peter

This document features a guide for elementary and secondary school teachers integrating animals into their curriculum and classrooms. Topics discussed include suitable classroom pets, care and housing, integrating the classroom pet into the curriculum, live animal studies, earthworms, dissections, science fairs, and resources. (YDS)

An Exploration of Elementary Teachers' Beliefs and Perceptions About Science Inquiry: A Mixed Methods Study

NASA Astrophysics Data System (ADS)

Hamadeh, Linda

In order for science-based inquiry instruction to happen on a large scale in elementary classrooms across the country, evidence must be provided that implementing this reform can be realistic and practical, despite the challenges and obstacles teachers may face. This study sought to examine elementary teachers' knowledge and understanding of, attitudes toward, and overall perceptions of inquiry-based science instruction, and how these beliefs influenced their inquiry practice in the classroom. It offered a description and analysis of the approaches elementary science teachers in Islamic schools reported using to promote inquiry within the context of their science classrooms, and addressed the challenges the participating teachers faced when implementing scientific inquiry strategies in their instruction. The research followed a mixed method approach, best described as a sequential two-strand design (Teddlie & Tashakkori, 2006). Sequential mixed designs develop two methodological strands that occur chronologically, and in the case of this research, QUAN→QUAL. Findings from the study supported the notion that the school and/or classroom environment could be a contextual factor that influenced some teachers' classroom beliefs about the feasibility of implementing science inquiry. Moreover, although teacher beliefs are influential, they are malleable and adaptable and influenced primarily by their own personal direct experiences with inquiry instruction or lack of.

Preparation for Practice: Elementary Preservice Teachers Learning and Using Scientific Classroom Discourse Community Instructional Strategies

ERIC Educational Resources Information Center

Lewis, Elizabeth; Dema, Oxana; Harshbarger, Dena

2014-01-01

Despite historical national efforts to improve elementary science education, science instruction continues to be marginalized, varying by state. This study was designed to address the ongoing challenge of educating elementary preservice teachers (PSTs) to teach science. Elementary PSTs are one of the science education community's major links…

Defining a Technology Research Agenda for Elementary and Secondary Students with Learning and Other High-Incidence Disabilities in Inclusive Science Classrooms

ERIC Educational Resources Information Center

Marino, Matthew T.

2010-01-01

Increased numbers of elementary and secondary students with learning and other disabilities are participating in inclusive science classrooms. Unfortunately, many of these students struggle to achieve at a level commensurate with their peers. As a result, few students with disabilities pursue advanced scientific coursework or enter science,…

Physical Science Activities for Elementary and Middle School. CESI Sourcebook V. An Occasional Sourcebook of the Council for Elementary Science International.

ERIC Educational Resources Information Center

Malone, Mark R., Comp.

Mounting research evidence has shown that an activity centered approach to elementary and middle school science education can be quite effective. This sourcebook, developed for teachers by teachers, presents many activity oriented science lessons that could be done in any elementary or middle school classroom with minimal additional experience.…

Cognitive Research and Elementary Science Instruction: From the Laboratory, to the Classroom, and Back

ERIC Educational Resources Information Center

Klahr, David; Li, Junlei

2005-01-01

Can cognitive research generate usable knowledge for elementary science instruction? Can issues raised by classroom practice drive the agenda of laboratory cognitive research? Answering yes to both questions, we advocate building a reciprocal interface between basic and applied research. We discuss five studies of the teaching, learning, and…

Exploring How Second Grade Elementary Teachers Translate Their Nature of Science Views into Classroom Practice After a Graduate Level Nature of Science Course

NASA Astrophysics Data System (ADS)

Deniz, Hasan; Adibelli, Elif

2015-12-01

The main purpose of this study was to explore the factors mediating the translation of second grade teachers' nature of science (NOS) views into classroom practice after completing a graduate level NOS course. Four second grade in-service elementary teachers comprised the sample of this study. Data were collected from several sources during the course of this study. The primary data sources were (a) assessment of the elementary teachers' NOS views before and after the graduate level NOS course using the Views of Nature of Science Questionnaire Version B (VNOS-B) (Lederman et al., 2002) coupled with interviews, and (b) a classroom observation and videotaped recording of the elementary teachers' best NOS lessons coupled with interview. We identified three distinct but related factors that mediated the translation of NOS views into classroom practice: the teachers' perspectives about the developmental appropriateness of the NOS aspect, the teachers' selection of target NOS aspects, and the relative importance placed by teachers on each NOS aspect.

Teaching planetary sciences to elementary school teachers: Programs that work

NASA Technical Reports Server (NTRS)

Lebofsky, Larry A.; Lebofsky, Nancy R.

1993-01-01

Planetary sciences can be used to introduce students to the natural world which is a part of their lives. Even children in an urban environment are aware of such phenomena as day and night, shadows, and the seasons. It is a science that transcends cultures, has been prominent in the news in recent years, and can generate excitement in young minds as no other science can. Planetary sciences also provides a useful tool for understanding other sciences and mathematics, and for developing problem solving skills which are important in our technological world. However, only 15 percent of elementary school teachers feel very well qualified to teach earth/space science, while better than 80 percent feel well qualified to teach reading; many teachers avoid teaching science; very little time is actually spent teaching science in the elementary school: 19 minutes per day in K-3 and 38 minutes per day in 4-6. While very little science is taught in elementary and middle school, earth/space science is taught at the elementary level in less than half of the states. It was pointed out that science is not generally given high priority by either teachers or school districts, and is certainly not considered on a par with language arts and mathematics. Therefore, in order to teach science to our youth, we must empower our teachers, making them familiar and comfortable with existing materials. In our earlier workshops, several of our teachers taught in classrooms where the majority of the students were Hispanic (over 90 percent). However, few space sciences materials existed in Spanish. Therefore, most of our materials could not be used effectively in the classroom. To address this issue, NASA materials were translated into Spanish and a series of workshops for bilingual classroom teachers from Tucson and surrounding cities was conducted. Our space sciences workshops and our bilingual classroom workshops and how they address the needs of elementary school teachers in Arizona are addressed in detail.

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

NASA Astrophysics Data System (ADS)

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

2015-12-01

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

Transforming Beliefs and Practices: Elementary Teacher Candidates' Development through Shared Authentic Teaching and Reflection Experiences within an Innovative Science Methods Course

ERIC Educational Resources Information Center

Naidoo, Kara

2013-01-01

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…

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…

Departmentalize Elementary Schools

ERIC Educational Resources Information Center

Chan, Tak Cheung; Jarman, Delbert

2004-01-01

In elementary schools today, most students receive their education in a single classroom from one teacher who is responsible for teaching language arts, social studies, math, and science. The self-contained classroom organization is predicated on the assumption that an elementary school teacher is a Jack (or Jill)-of-all-trades who is equally…

The Effects of Activity-Based Elementary Science Programs on Student Outcomes and Classroom Practices: A Meta Analysis of Controlled Studies.

ERIC Educational Resources Information Center

Bredderman, Ted

A quantitative synthesis of research findings on the effects of three major activity-based elementary science programs developed with National Science Foundation support was conducted. Controlled evaluation studies of the Elementary Science Study (ESS), Science-A Process Approach (SAPA), or The Science Curriculum Improvement Study (SCIS) were used…

Supporting elementary science education for English learners: An evaluation instrument to promote constructivist teaching

NASA Astrophysics Data System (ADS)

Gibbons, Beatrice Lowney

2002-01-01

The purpose of this study was to develop an evaluation instrument to be used by elementary school administrators in the promotion of constructivist teaching of elementary science for English Learners using a qualitative and quantitative design that identified effective instructional strategies to be included on the evaluation instrument. This study was conducted in fifth grade classrooms of predominately English Learners whose teachers are CLAD-certified, tenured teachers with at least three years of teaching experience. The classroom observations took place within a multicultural school district with predominantly Hispanic and Filipino students in the Southern San Joaquin Valley of California. The evaluation instrument was used to observe these teachers teach elementary science lessons to classrooms of predominately English Learners. The frequency of the use of the ELD/SDAIE instructional strategies were noted on the evaluation instrument with a check mark, indicating the fact that an instructional technique was employed by the teacher. These observation visits revealed what type of instructional strategies were being utilized in the teaching of science to fifth grade English Learners, whether these CLAD-certified teachers were using ELD strategies, and whether the incidence of ELD/SDAIE constructivist instructional techniques increased with the repeated use of the evaluation instrument. As a result of this study, an evaluation instrument to be utilized by school administrators in the evaluation of elementary science instruction to English Learners was developed. The repeated use of this evaluation instrument coupled with preobservation and postobservation conferences may result in the increase in frequency of ELD/SDAIE methodology and constructivist strategies listed on the evaluation instrument in the elementary science classroom.

Prisoners or Volunteers: Developing Mutual Respect in the Elementary Science Classroom.

ERIC Educational Resources Information Center

Huber, Richard A.; And Others

This study was conducted to investigate how teacher educators might help preservice teachers enrolled in a science methods course understand the need for mutual respect rather than coercion between pupil and teacher in an elementary classroom. An evaluation instrument was developed that consisted of a pre and post open-ended response to a…

Differential Use of Elementary Science Kits

ERIC Educational Resources Information Center

Jones, Gail; Robertson, Laura; Gardner, Grant E.; Dotger, Sharon; Blanchard, Margaret R.

2012-01-01

The use of kits in elementary science classes is a growing trend in some countries. Kits provide materials and inquiry lessons in a ready-to-teach format for teachers to use in their science instruction. This study examined elementary teachers' instructional strategies, classroom practices, and assessment types in relation to the frequency of…

A study of culturally syntonic variables in the bilingual/bicultural science classroom

NASA Astrophysics Data System (ADS)

Barba, Robertta H.

The purpose of this study was to conduct a needs assessment of bilingual/bicultural elementary science classrooms in order to determine if the current instructional environment addresses the educational needs of Hispanic/Latino children. This study examined 57 randomly selected elementary bilingual/bicultural science classrooms in a large metropolitan area of the southwestern United States in terms of culturally syntonic variables (i.e., culture-of-origin beliefs and/or practices that impact the teaching/learning process). Findings from this study indicate that Hispanic/Latino children are receiving science instruction: (a) with culturally asyntonic printed materials, teaching strategies, and supplementary materials, (b) in classrooms that do not use the child's native language, familia learning groups, peer tutoring, or manipulative materials, and (c) with oral and verbal instruction that lack culturally syntonic role models, examples, analogies, and elaborations. Findings from this study imply that changes are needed in pre-service and in-service teacher training, in science textbook formats, and in the scope and focus of elementary school bilingual/bicultural science curriculum and instructional strategies.

STEM Is Elementary: Challenges Faced by Elementary Teachers in the Era of the Next Generation Science Standards

ERIC Educational Resources Information Center

Isabelle, Aaron D.

2017-01-01

For students to achieve the goals of the Next Generation Science Standards (NGSS) by Grade 12, thinking and acting like scientists and engineers must begin in the elementary grades. However, elementary teachers may find this challenging -because language arts and mathematics still dominate many classrooms--often at the expense of science. This…

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.

Science education in an urban elementary school: Case studies of teacher beliefs and classroom practices

NASA Astrophysics Data System (ADS)

King, Ken; Shumow, Lee; Lietz, Stephanie

2001-03-01

Through a case study approach, the state of science education in an urban elementary school was examined in detail. Observations made from the perspective of a science education specialist, an educational psychologist, and an expert elementary teacher were triangulated to provide a set of perspectives from which elementary science instruction could be examined. Findings revealed that teachers were more poorly prepared than had been anticipated, both in terms of science content knowledge and instructional skills, but also with respect to the quality of classroom pedagogical and management skills. Particularly significant, from a science education perspective, was the inconsistency between how they perceived their teaching practice (a hands-on, inquiry-based approach) and the investigator-observed expository nature of the lessons. Lessons were typically expository in nature, with little higher-level interaction of significance. Implications for practice and the associated needs for staff development among urban elementary teachers is discussed within the context of these findings.

Supporting Academic Language Development in Elementary Science: A Classroom Teaching Experiment

NASA Astrophysics Data System (ADS)

Jung, Karl Gerhard

Academic language is the language that students must engage in while participating in the teaching and learning that takes place in school (Schleppegrell, 2012) and science as a content area presents specific challenges and opportunities for students to engage with language (Buxton & Lee, 2014; Gee, 2005). In order for students to engage authentically and fully in the science learning that will take place in their classrooms, it is important that they develop their abilities to use science academic language (National Research Council, 2012). For this to occur, teachers must provide support to their students in developing the science academic language they will encounter in their classrooms. Unfortunately, this type of support remains a challenge for many teachers (Baecher, Farnsworth, & Ediger, 2014; Bigelow, 2010; Fisher & Frey, 2010) and teachers must receive professional development that supports their abilities to provide instruction that supports and scaffolds students' science academic language use and development. This study investigates an elementary science teacher's engagement in an instructional coaching partnership to explore how that teacher planned and implemented scaffolds for science academic language. Using a theoretical framework that combines the literature on scaffolding (Bunch, Walqui, & Kibler, 2015; Gibbons, 2015; Sharpe, 2001/2006) and instructional coaching (Knight, 2007/2009), this study sought to understand how an elementary science teacher plans and implements scaffolds for science academic language, and the resources that assisted the teacher in planning those scaffolds. The overarching goal of this work is to understand how elementary science teachers can scaffold language in their classroom, and how they can be supported in that work. Using a classroom teaching experiment methodology (Cobb, 2000) and constructivist grounded theory methods (Charmaz, 2014) for analysis, this study examined coaching conversations and classroom instruction to identify and understand what scaffolds are planned and implemented, and how that planning and implementation occurred through an instructional coaching partnership. Findings from this study showed the elementary science teacher planned and implemented a number of scaffolds for science academic language, focusing primarily on the use of sentence starters as a scaffolding strategy. The findings also indicated that the instructional coaching partnership played a vital role as the main resource that assisted the planning of scaffolds. These findings provide insights into the types of scaffolds that elementary science teachers can implement to scaffold science academic language, and the role that instructional coaching can play in supporting teachers as they work to provide instruction that scaffolds their students' language use and development.

We teach as we are taught: exploring the potential for emotional climate to enhance elementary science preservice teacher education

NASA Astrophysics Data System (ADS)

Olitsky, Stacy

2013-09-01

Bellocchi, Ritchie, Tobin, Sandhu and Sandhu's (2013) study highlights the crucial role that emotions play in learning at the university level in a preservice secondary science teacher education class. They examine the classroom structures that tended to lead to both a positive valence and a high level of intensity of the emotional climate (EC). This article explores the implications of their study for better understanding how to foster a positive classroom emotional climate for elementary level preservice teachers, given the specifics of elementary school environments. Drawing on theories of interactional solidarity. I explore the implications of EC for increasing pre-service teachers' capacity to avoid order-giving rituals and to create science-centered communities in their classrooms. I also suggest possible areas for future research, such as the role of expectations in EC, the different EC outcomes of lectures, EC and the development of confidence in science, and the ways in which teacher candidates are positioned within interaction rituals in elementary science methods classes.

Balancing Teacher and Student Roles in Elementary Classrooms: Preservice Elementary Teachers' Learning about the Inquiry Continuum

ERIC Educational Resources Information Center

Biggers, Mandy; Forbes, Cory T.

2012-01-01

Using the National Research Council's inquiry continuum framework, we use a multiple-case study research design to investigate the teacher- and student-directedness of elementary preservice teachers' planned and enacted science lessons and their pedagogical reasoning about science instruction during a semester-long science methods course. Our…

Exploring Exemplary Elementary Teachers' Conceptions and Implementation of Inquiry Science

ERIC Educational Resources Information Center

Morrison, Judith A.

2013-01-01

This study was an exploration of the conceptions of inquiry science held by exemplary elementary teachers. The origins of these conceptions were explored in order to establish how best to improve elementary teachers' understanding and implementation of inquiry science teaching. Four focus group sessions were held as well as classroom observations.…

Bringing the Science of Climate Change to Elementary Students with new Classroom Activities from Elementary GLOBE

NASA Astrophysics Data System (ADS)

Gardiner, L. S.; Hatheway, B.; Taylor, J.; Chambers, L. H.; Stanitski, D.

2016-12-01

To address the dearth of climate education resources at the elementary level, we have developed a new module of Elementary GLOBE to showcase the science of climate change for young learners. Elementary GLOBE builds K-4 student understanding of the science concepts and the practices of science research. At the heart of each Elementary GLOBE module is a fiction storybook, describing how three kids investigate a science question. Accompanying classroom activities allow students to explore the science concepts in the book in more depth and in a context appropriate for young learners. The book for the Elementary GLOBE climate module, "What in the World Is Happening to Our Climate?," is the account of an adventure to explore climate change, how it is affecting melting glacial ice and sea level rise, and how climate change is a problem that can be solved. Three hands-on activities, which will be presented at this session, allow students to explore the topics in greater depth including differences between weather and climate, how sea level rise affects coastal areas, and how they can shrink their carbon footprint to help address recent climate change. Each activity includes instructions for teachers, background information, and activity sheets for students, and is aligned to the Next Generation Science Standards and Common Core Math and Language Arts Standards. The storybook and activities were field tested in classrooms and reviewed by climate and Earth system scientists as well as elementary education and climate education specialists and educators to ensure scientific accuracy and clear explanations, and that the resources are age appropriate and reflect the needs of the climate education community. Other Elementary GLOBE modules include the science of seasonal change, water, soil, clouds, aerosols, and Earth as a system. All Elementary GLOBE educational resources are freely available online (www.globe.gov/elementaryglobe).

Using Smart Boards and Manipulatives in the Elementary Science Classroom

ERIC Educational Resources Information Center

Martin, Susan F.; Shaw, Edward L., Jr.; Daughenbaugh, Lynda

2014-01-01

This study summarizes the results of a survey administered to 48 elementary schools in the largest school district in a southeastern U.S. state, conducted by university faculty to evaluate the use of SMART Boards and hands-on experiences, the objectives of which were to identify preparedness of elementary classroom teachers in teaching elementary…

ENRICHMENT - CLASSROOM CHALLENGE.

ERIC Educational Resources Information Center

GIBBONY, HAZEL L.

SUGGESTIONS FOR ENRICHMENT TEACHING ARE PRESENTED. THE SUGGESTIONS ARE DIVIDED UNDER ELEMENTARY CLASSROOM AND SECONDARY SCHOOL SUBJECTS. SOME OF THE SUGGESTIONS FOR ELEMENTARY SCHOOL ARE BULLETIN BOARDS, FIELD TRIPS, INDIVIDUAL PROJECTS, AND DISCUSSIONS. THESE SUGGESTIONS APPLY TO LANGUAGE ARTS, SOCIAL STUDIES, SCIENCE, ARITHMETIC AND FOREIGN…

Think Scientifically: The NASA Solar Dynamics Observatory's Elementary Science Literacy Program

NASA Astrophysics Data System (ADS)

Van Norden, Wendy; Wawro, Martha

2013-03-01

The pressure to focus on math and reading at the elementary level has increased in recent years. As a result, science education has taken a back seat in elementary classrooms. The Think Scientifically book series provides a way for science to easily integrate with existing math and reading curriculum. This story-based science literature program integrates a classic storybook format with solid solar science, to make an educational product that meets state literacy standards. Each story is accompanied by hands-on labs and activities that teachers can easily conduct in their classrooms with minimal training and materials, as well as math and language arts extensions and assessment questions. These books are being distributed through teacher workshops and conferences.

Think Scientifically: The Solar Dynamics Observatory's Elementary Science Literacy Program

NASA Astrophysics Data System (ADS)

Van Norden, Wendy; Wawro; Martha

2012-03-01

The pressure to focus on math and reading at the elementary level has increased in recent years. As a result, science education has taken a back seat in elementary classrooms. The Think Scientifically book series provides a way for science to easily integrate with existing math and reading curriculum. This story-based science literature program integrates a classic storybook format with solid solar science, to make an educational product that meets state literacy standards. Each story is accompanied by hands-on labs and activities that teachers can easily conduct in their classrooms with minimal training and materials, as well as math and language arts extensions and assessment questions. These books are being distributed through teacher workshops and conferences.

The Influence of Informal Science Education Experiences on the Development of Two Beginning Teachers' Science Classroom Teaching Identity

ERIC Educational Resources Information Center

Katz, Phyllis; McGinnis, J. Randy; Riedinger, Kelly; Marbach-Ad, Gili; Dai, Amy

2013-01-01

In case studies of two first-year elementary classroom teachers, we explored the influence of informal science education (ISE) they experienced in their teacher education program. Our theoretical lens was identity development, delimited to classroom science teaching. We used complementary data collection methods and analysis, including interviews,…

Dilemmas of Teaching Inquiry in Elementary Science Methods

ERIC Educational Resources Information Center

Newman, William J., Jr.; Abell, Sandra K.; Hubbard, Paula D.; McDonald, James; Otaala, Justine; Martini, Mariana

2004-01-01

Because various definitions of inquiry exist in the science education literature and in classroom practice, elementary science methods students and instructors face dilemmas during the study of inquiry. Using field notes, instructor anecdotal notes, student products, and course artifacts, science methods course instructors created fictional…

The Emergence of Student Creativity in Classroom Settings: A Case Study of Elementary Schools in Korea

ERIC Educational Resources Information Center

Cho, Younsoon; Chung, Hye Young; Choi, Kyoulee; Seo, Choyoung; Baek, Eunjoo

2013-01-01

This research explores the emergence of student creativity in classroom settings, specifically within two content areas: science and social studies. Fourteen classrooms in three elementary schools in Korea were observed, and the teachers and students were interviewed. The three types of student creativity emerging in the teaching and learning…

Reading Engagement in Science: Elementary Students' Read-Aloud Experiences

ERIC Educational Resources Information Center

Oliveira, Alandeom W.

2015-01-01

This study examines student reading engagement with children's science books in elementary classrooms. "Reading engagement" in science is conceived in terms of a Transmission-Transaction continuum. When centered on transmission, science reading entails passive reception of a textually encoded scientific message. By contrast, when science…

Language of poverty strategies: Implemented in the urban elementary science classroom

NASA Astrophysics Data System (ADS)

Jeanpierre, Bobby Jo

2000-08-01

This research study reports the results of school-based staff development models used at three urban elementary schools that had liaison teachers assisting classroom teachers in implementing instructional strategies in science teaching from "Language of Poverty," a curriculum framework designed to address the academic needs of disadvantaged students. The case study of two urban elementary schools and six classroom teachers, and survey and interview data results of a third school, uncovered insights into several areas of science teaching in urban settings. One conclusion is that in spite of substantial allocation of resources and assistance, teachers did not translate instructional strategies from "Language of Poverty" curriculum into their classroom practices in a way that would foster urban disadvantaged students' understanding of "big science concepts." A second conclusion is that the school-based staff development models were limited in their ability to address the diverse professional needs of all of its staff. Third, as it relates to students, discipline issues occurred in these urban classrooms across ethnicity and gender. And in addition to teachers being knowledgeable of relevant social and cultural group norms' application of this knowledge in an appropriate and consistent manner is needed to effectively address discipline concerns.

A Collaborative Approach for Elementary Science

ERIC Educational Resources Information Center

Nelson, George D.; Landel, Carolyn C.

2007-01-01

The authors question whether elementary students will have access to effective science and mathematics instruction within the current structure of elementary schools, in which each classroom teachers is expected to possess the expertise to teach all subjects well. They review research showing that good teachers are the key to student achievement…

Facilitating Elementary Science Teachers' Implementation of Inquiry-Based Science Teaching

ERIC Educational Resources Information Center

Qablan, Ahmad M.; DeBaz, Theodora

2015-01-01

Preservice science teachers generally feel that the implementation of inquiry-based science teaching is very difficult to manage. This research project aimed at facilitating the implementation of inquiry-based science teaching through the use of several classroom strategies. The evaluation of 15 classroom strategies from 80 preservice elementary…

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

ERIC Educational Resources Information Center

Tastan Kirik, Özgecan

2013-01-01

This study explores the science teaching efficacy beliefs of preservice 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…

The effects of student-level and classroom-level factors on elementary students' science achievement in five countries

NASA Astrophysics Data System (ADS)

Kaya, Sibel

The interest in raising levels of achievement in math and science has led to a focus on investigating the factors that shape achievement in these subjects (Lamb & Fullarton, 2002) as well as understanding how these factors operate across countries (Baker, Fabrega, Galindo, & Mishook, 2004). The current study examined the individual student factors and classroom factors on fourth grade science achievement within and across five countries. Guided by the previous school learning models, the elements of students' science learning were categorized as student-level and classroom-level factors. The student-level factors included gender, self-confidence in science, and home resources. The classroom-level factors included teacher characteristics, instructional variables and classroom composition. Results for the United States and four other countries, Singapore, Japan, Australia, and Scotland were reported. Multilevel effects of student and classroom variables were examined through Hierarchical Linear Modeling (HLM) using the Trends in International Mathematics and Science Study (TIMSS) 2003 fourth grade dataset. The outcome variable was the TIMSS 2003 science score. Overall, the results of this study showed that selected student background characteristics were consistently related to elementary science achievement in countries investigated. At the student-level, higher levels of home resources and self-confidence and at the classroom-level, higher levels of class mean home resources yielded higher science scores on the TIMSS 2003. In general, teacher and instructional variables were minimally related to science achievement. There was evidence of positive effects of teacher support in the U.S. and Singapore. The emphasis on science inquiry was positively related to science achievement in Singapore and negatively related in the U.S. and Australia. Experimental studies that investigate the impacts of teacher and instructional factors on elementary science achievement are needed. For all the countries investigated, with the exception of Singapore, the between-class variance was much smaller than the within-class variance. Japan had the smallest variation in science achievement among classrooms which indicates the homogeneity across classrooms in Japan. Increasing awareness and knowledge of gender neutral instructional techniques, providing a non-threatening, rich and supportive environment for both genders in classrooms by elementary teachers are to be encouraged. To improve students' self beliefs about science, it is recommended that teachers model science activities and accommodate students' needs and abilities (Bandura, 1997; Britner & Pajares, 2006). Schools and teachers are recommended to develop a successful home-school partnership for improved student learning and positive attitudes toward science (Eccles & Harold, 1996; Epstein & Salinas, 2004). Furthermore, developing a knowledge base for teachers regarding the influences of classroom and school composition is highlighted (Honig, Kahne, & McLaughlin, 2001; Murrel, 2001). At the classroom- and school-level, policy efforts could focus on the distribution of educational resources (Condron & Roscigno, 2003; Goesling, 2003) to compensate for poor family background.

The Challenges of Science Inquiry Teaching for Pre-Service Teachers in Elementary Classrooms: Difficulties on and under the Scene

ERIC Educational Resources Information Center

Yoon, Hye-Gyoung; Joung, Yong Jae; Kim, Mijung

2012-01-01

In the context of the emphasis on inquiry teaching in science education, this study looks into how pre-service elementary teachers understand and practice science inquiry teaching during field experience. By examining inquiry lesson preparation, practice, and reflections of pre-service elementary teachers, we attempt to understand the difficulties…

Think Scientifically: The NASA Solar Dynamics Observatory's Elementary Science Literacy Program

NASA Astrophysics Data System (ADS)

Van Norden, Wendy M.

2013-07-01

The pressure to focus on math and reading at the elementary level has increased in recent years. As a result, science education has taken a back seat in elementary classrooms. The Think Scientifically book series provides a way for science to easily integrate with existing math and reading curriculum. This story-based science literature program integrates a classic storybook format with solar science concepts, to make an educational product that meets state literacy standards. Each story is accompanied by hands-on labs and activities that teachers can easily conduct in their classrooms with minimal training and materials, as well as math and language arts extensions. These books are being distributed through teacher workshops and conferences, and are available free at http://sdo.gsfc.nasa.gov/epo/educators/thinkscientifically.php.

Teaching Teachers: Bringing First-Rate Science to the Elementary Classroom. An NSTA Press Journals Collection.

ERIC Educational Resources Information Center

Smith, Betty, Ed.

This document presents a collection of papers published in the "Teaching Teachers" column in the elementary-level journal, "Science and Children." Contents include: (1) "Science is Part of the Big Picture: Teachers Become Science Learners" (Anita Greenwood); (2) "Reaching the Reluctant Science Teacher: Learning How To Teach Inquiry-Based Science"…

Preservice Elementary Teachers' Beliefs about Science Teaching

ERIC Educational Resources Information Center

Yilmaz-Tuzun, Ozgul

2008-01-01

In this study, a Beliefs About Teaching (BAT) scale was created to examine preservice elementary science teachers' self-reported comfort level with both traditional and reform-based teaching methods, assessment techniques, classroom management techniques, and science content. Participants included 166 preservice teachers from three different US…

An exploration of administrators' perceptions of elementary science: A case study of the role of science in two elementary schools based on the interactions of administrators with colleagues, science content and state standards

NASA Astrophysics Data System (ADS)

Brogdon, Lori-Anne Stelmark

This research is a case study on the perceptions and attitudes of administrators in the area of elementary science and how their responses reflect agreement or dissonance with the perceptions of elementary teachers on the subject of science within the same district. The study used Likert-type surveys and interviews from both administrators and teachers on five key areas: 1) Attitudes towards science and teaching 2) Attitudes towards teaching science 3) Attitudes towards administrators 4) Time teaching science and 5) Attitudes about policy and standards. Survey data was analyzed within and across areas to identify similarity and difference within each group. The medians from the administrative and teacher surveys were then crossed referenced through the use of a Mann Whitney test to identify areas of similarity. Interview data was coded around three major themes: 1) Standards 2) Classroom Instruction and 3) Conversations. The findings show that even though administrators' perceptions favor the inclusion of science in the elementary classroom, both administrators and teachers in this study reported limited involvement from, and conversation with, each other on the topic of science education. Heavy reliance by the administrators was placed on the use of consultants to provide professional development in the area of science instruction and to review the use of state standards, resulting in limited conversation between administrators and teachers about science. Teachers reported a heavy reliance upon their colleagues in the area of science instruction and curriculum planning. In addition, both administrators and teachers reported a greater focus on math and English for classroom instruction. Findings in this research support implications that more focus should be placed on the role of administrators in the implementation of science instruction. Administrators can play a crucial role in the success of science programs at the building, district and state levels. Recommendations for further study include expanding upon the number of individuals surveyed and interviewed to develop a greater understanding of administrators' and teachers' perspectives of science, as well as a focus on the possible influences of the Common Core and Next Generation Science Standards in the elementary classroom.

Teacher Perspectives on Specialisation in the Elementary Classroom: Implications for Science Instruction

ERIC Educational Resources Information Center

Poland, Susan; Colburn, Amanda; Long, David E.

2017-01-01

In the current educational climate of testing and accountability, many elementary teachers find they lack adequate time and confidence to enact reform-based science teaching due to pressure to perform in reading and mathematics. With this tension in mind, we explore the phenomenon of elementary teacher specialisation in comparison to the…

Elementary Teachers' Perception of Language Issues in Science Classrooms

ERIC Educational Resources Information Center

Seah, Lay Hoon

2016-01-01

Although the importance of language in science learning has been widely recognized by researchers, there is limited research on how science teachers perceive the roles that language plays in science classrooms. As part of an intervention design project that aimed to enhance teachers' capacity to address the language demands of science, interview…

Digital Science Notebooks: Perspectives from an Elementary Classroom Teacher

ERIC Educational Resources Information Center

Paek, Seungoh; Fulton, Lori A.

2017-01-01

This study investigates how tablet-based note-taking applications can be integrated into elementary science classes as digital science notebooks. A teacher with 20 students in Grades 4-5 from a public charter school in Hawaii participated in the study. The participating science teacher introduced a tablet-based note taking application (TNA) to her…

Science in the Elementary School Classroom: Portraits of Action Research.

ERIC Educational Resources Information Center

McDonald, Jane B., Ed.; Gilmer, Penny J., Ed.

Teacher knowledge and skills are critical elements in the student learning process. Action research serves as an increasingly popular technique to engage teachers in educational change in classrooms. This document focuses on action research reports of elementary school teachers. Chapters include: (1) "First Graders' Beliefs and Perceptions of…

Looking back and moving forward: A mixed methods study of elementary science teacher preparation

NASA Astrophysics Data System (ADS)

Hulings, Melissa

This study sought to understand how science learning experiences, and their potential influence, had on preservice elementary teachers' self-efficacy and perceptions of science teaching and learning at the beginning of their science methods course. Following an explanatory sequential mixed methods design, this study first involved the collection of quantitative data and then the collection of more in-depth qualitative data. In the first phase, the quantitative data included the Draw-a-Science-Teacher-Test Checklist (DASTT-C) and the Science Teaching Efficacy Belief Instrument (STEBI-B) of preservice elementary teachers (n = 69). Findings from this phase indicated preservice elementary teachers had a higher level of belief in their abilities to teach science (PSTE subscale) than to affect student outcomes in science (STOE subscale). However, the STOE was not found to be a reliable measure for this group of preservice elementary teachers and was not included in any further analysis. Findings from the DASTT-C images indicated the majority of these drawings could not be classified as student-centered. In the second phase of this study, the researcher explored selected science autobiographies written by these same preservice elementary teachers (n = 19), based on extremely high or low scores on the PSTE subscale and DASTT-C. Analysis of the science autobiographies revealed commonalities and differences. Commonalities included (a) the difficulty in remembering science from elementary school; (b) a mixture of positive and negative experiences in secondary school and college science classes; (c) the descriptions of good science days and good science teachers; and (d) the descriptions of bad science days and bad science teachers. Differences included (a) the people who influenced their attitudes toward science; (b) the types of experiences, when remembered, from elementary school; and (c) visions of their future classrooms. Based on these findings, these preservice elementary teachers used their past experiences with science as a foundation for how they perceived science and its instruction in the elementary classroom. Overall, it appears preservice elementary teachers have a desire to make the elementary experience a positive one for their future students.

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

NASA Astrophysics Data System (ADS)

Hazari, Alan A.

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

Problems with science teaching and learning for English Language Learners in one diverse elementary school

NASA Astrophysics Data System (ADS)

Rodriguez, Karen Margaret

This qualitative study centered on science instruction and learning that occurred in a Title I elementary school in a suburban district in southeast Texas. Twelve teachers were interviewed in order to understand their perceptions of their classroom practices in terms of science instruction and learning for English Language Learners (ELL). This study also analyzed information gathered from teacher lesson plan and classroom observations. The participants’ awareness of the instructional practices necessary for ELL student achievement in science was evident through analysis of interview transcripts. However, after observation of actual classroom instruction, it became apparent that the teaching and learning in most classrooms was not reflective of this awareness. This study proposes that this disconnect may be a result of a lack of quality professional development available to the teachers. The study also outlines and describes the characteristics of quality professional development and its relationship to focused instruction and continuous student improvement.

Student Initiatives in Urban Elementary Science Classrooms

ERIC Educational Resources Information Center

Lewis, Scott; Lee, Okhee; Santau, Alexandra; Cone, Neporcha

2010-01-01

Student initiatives play an important role in inquiry-based science with all students, including English language learning (ELL) students. This study examined initiatives that elementary students made as they participated in an intervention to promote science learning and English language development over a three-year period. In addition, the…

Relationships between Prospective Elementary Teachers' Classroom Practice and Their Conceptions of Biology and of Teaching Science.

ERIC Educational Resources Information Center

Meyer, Helen; Tabachnick, B. Robert; Hewson, Peter W.; Lemberger, John; Park, Hyun-Ju

1999-01-01

Discusses three prospective elementary teachers' conceptions of teaching science and selected portions of their knowledge base in life science. Explores how these teachers' conceptions, along with their teaching actions, developed during the course of a teacher-education program. Contains 21 references. (Author/WRM)

Teacher perspectives on specialisation in the elementary classroom: implications for science instruction

NASA Astrophysics Data System (ADS)

Poland, Susan; Colburn, Amanda; Long, David E.

2017-09-01

In the current educational climate of testing and accountability, many elementary teachers find they lack adequate time and confidence to enact reform-based science teaching due to pressure to perform in reading and mathematics. With this tension in mind, we explore the phenomenon of elementary teacher specialisation in comparison to the traditional, generalist model of teaching, wherein a teacher is responsible for teaching all subjects to one group of students each year. This mixed-methods study examines teacher perspectives on the practice of specialisation and generalisation through teacher interview data. Our teachers spoke candidly about their attitudes towards specialisation, the perceived impacts of specialization on teachers and students, and the role of accountability, administration, and testing in their decisions to specialise. Additionally, our teachers discussed time dedicated to science in specialist and generalist classrooms. Our findings suggest that specialist roles are sought by those who see specialisation as a means of reducing workload, while allowing for content mastery and improved instruction. Alternatively, generalist roles are sought by those who primarily view the role of elementary teaching as the care and development of children, and who prefer to focus on the classroom as a holistic, fluid space. Implications for science teaching are discussed.

Can Elementary Students Gather Information from Concept Maps?

ERIC Educational Resources Information Center

Marulcu, Ismail; Karakuyu, Yunus; Dogan, Mevlut

2013-01-01

In this study, we investigated whether concept maps were used as often and as effectively in elementary science and technology classrooms as recommended by the National Ministry of Education (MEB) in the new curricula in Turkey. In the new elementary science and technology curricula, the MEB provides a general concept map for each unit. We used…

Making Science Trade Book Choices for Elementary Classrooms

ERIC Educational Resources Information Center

Atkinson, Terry S.; Matusevich, Melissa N.; Huber, Lisa

2009-01-01

Teachers often use science trade books in the classroom for a number of reasons: to enhance science instruction, to augment an adopted science textbook, or to integrate literacy with subject-area content. Using Patricia Hunsader's mathematics trade book evaluation rubric published in the April 2004 issue of "Reading Teacher" as a model, the…

Elementary GLOBE: Inquiring About the Earth System Through Elementary Student Investigations

NASA Astrophysics Data System (ADS)

Henderson, S.; Hatheway, B.; Gardiner, L.; Gallagher, S.

2006-12-01

Elementary GLOBE was designed to introduce K-4 students to the study of Earth System Science (ESS). Elementary GLOBE forms an instructional unit comprised of five modules that address ESS and interrelated subjects including weather, hydrology, seasons, and soils. Each Elementary GLOBE module contains a science based storybook, classroom learning activities that complement the science content covered in each book, and teacher's notes. The storybooks explore a component of the Earth system and the associated classroom learning activities provide students with a meaningful introduction to technology, a basic understanding of the methods of inquiry, and connection to math and literacy skills. The science content in the books and activities serves as a springboard to GLOBE's scientific protocols. All Elementary GLOBE materials are freely downloadable (www.globe.gov/elementaryglobe) The use of science storybooks with elementary students has proven to be an effective practice in exposing students to science content while providing opportunities for students to improve their reading, writing, and oral communication skills. The Elementary GLOBE storybooks portray kids asking questions about the natural world, doing science investigations, and exploring the world around them. Through the storybook characters, scientific inquiry is modeled for young learners. The associated learning activities provide opportunities for students to practice science inquiry and investigation skills, including observation, recording, measuring, etc. Students also gain exposure and increase their comfort with different tools that scientists use. The learning activities give students experiences with asking questions, conducting scientific investigations, and scientific journaling. Elementary GLOBE fills an important niche in K-4 instruction. The international GLOBE Program brings together students, teachers, and scientists with the basic goals of increasing scientific understanding of the Earth, supporting improved student achievement in science and math, and enhancing environmental awareness. NASA provides the primary source of funding for GLOBE.

Effects of a Science Content Course on Elementary Preservice Teachers' Self-Efficacy of Teaching Science

ERIC Educational Resources Information Center

Bergman, Daniel J.; Morphew, Jason

2015-01-01

The preparation of elementary teachers to successfully teach science in their classrooms is a central issue in science education. The teacher preparation program at a large Midwestern university was modified to include a new science content course aimed at this need. A pre-/postassessment research model involved participants (N = 154) completing a…

Learning to Teach Elementary Science in an Experiential, Informal Context: Culture, Learning, and Identity

ERIC Educational Resources Information Center

Wallace, Carolyn S.; Brooks, Lori

2015-01-01

Lack of time for teaching science in traditional classroom placements in the United States has led some science teacher educators to provide practice teaching time for elementary education students in informal science settings. The purposes of this study were to describe the culture of one science methods course taught in conjunction with a K-7…

From inside the black box: Teacher perceptions of science instruction at the elementary level

NASA Astrophysics Data System (ADS)

Ferrini, Cynthia D.

Science education reform projects aimed at elementary school children arose in the 1960's. The most prevalent of these reforms utilized the inquiry, or hands-on, science method. Billions of dollars have been invested in these reforms. Yet, reports indicate that science is not being taught at the level one might expect in elementary schools. This research was an analysis of the problems and concerns teachers at one school district faced as they tried to implement and sustain elementary inquiry science instruction. The district chosen was a large suburban district in the Western United States. The population was ninety percent Caucasian with a slightly more ethnically diverse school population. This district was chosen because it had an elementary science program for over twenty years and had received national acclaim for that program. The district had a stable and homogeneous staff there was a low administrator and teacher turnover rate and the elementary teaching population was ninety percent Caucasian and ninety percent female. Interviews with administrators and teachers were conducted. Data were collected from focus groups of teachers and science partners. Observations of elementary science classroom instruction and professional development sessions were made. Results of this research indicated that one important key to elementary science reform rests in the hands of teachers. Once the door to the classroom is closed, the teacher can decide to teach or not to teach science. The findings of this research illustrate that teachers hold ideas about science and science instruction that are antithetical to some tenets of inquiry science. Until these ideas are addressed it will be difficult, if not impossible, to implement a systemic elementary inquiry science program. This study demonstrates that professional development for elementary teachers in science needs to change from a focus on the mechanical usage of individual units to a focus on teacher expectations for student achievement. Professional development for teachers in inquiry science must address the cognitive foundations for inquiry science and the benefits students derive from this educational approach. Institutions delivering pre-service training for elementary teachers in science must change the curriculum to reflect these needs.

Evaluation of GALAXY Classroom Science for Grades 3-5. Final Report. Executive Summary.

ERIC Educational Resources Information Center

Guth, Gloria J. A.; Austin, Susan; DeLong, Bo; Pasta, David J.; Block, Clifford

The GALAXY Classroom is a package of integrated curricular and instructional approaches, supported by the first U.S. interactive satellite communications network designed to facilitate the introduction of innovative curricula to improve student learning in elementary schools. GALAXY Classroom Science for grades 3-5 features the organization of…

Teaching Planetary Sciences in Bilingual Classrooms

NASA Astrophysics Data System (ADS)

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

1993-05-01

Planetary sciences can be used to introduce students to the natural world which is a part of their lives. Even children in an urban environment are aware of such phenomena as day and night, shadows, and the seasons. It is a science that transcends cultures, has been prominent in the news in recent years, and can generate excitement in young minds as no other science can. It also provides a useful tool for understanding other sciences and mathematics, and for developing problem solving skills which are important in our technological world. However, only 15 percent of elementary school teachers feel very well qualified to teach earth/space science, while better than 80% feel well qualified to teach reading; many teachers avoid teaching science; very little time is actually spent teaching science in the elementary school: 19 minutes per day in K--3 and 38 minutes per day in 4--6. While very little science is taught in elementary and middle school, earth/space science is taught at the elementary level in less than half of the states. Therefore in order to teach earth/space science to our youth, we must empower our teachers, making them familiar and comfortable with existing materials. Tucson has another, but not unique, problem. The largest public school district, the Tucson Unified School District (TUSD), provides a neighborhood school system enhanced with magnet, bilingual and special needs schools for a school population of 57,000 students that is 4.1% Native American, 6.0% Black, and 36.0% Hispanic (1991). This makes TUSD and the other school districts in and around Tucson ideal for a program that reaches students of diverse ethnic backgrounds. However, few space sciences materials exist in Spanish; most materials could not be used effectively in the classroom. To address this issue, we have translated NASA materials into Spanish and are conducting a series of workshops for bilingual classroom teachers. We will discuss in detail our bilingual classroom workshops and how they address the needs of elementary school teachers in Arizona.

Science for Girls: Successful Classroom Strategies

ERIC Educational Resources Information Center

Goetz, Susan Gibbs

2007-01-01

"Science for Girls: Successful Classroom Strategies" looks at how girls learn, beginning with the time they are born through both the informal and formal education process. In the author's current role as professor of science education, Dr. Goetz has surveyed hundreds of female elementary education majors in their junior and senior year of…

Knowledge-Building Activity Structures in Japanese Elementary Science Pedagogy

ERIC Educational Resources Information Center

Oshima, Jun; Oshima, Ritsuko; Murayama, Isao; Inagaki, Shigenori; Takenaka, Makiko; Yamamoto, Tomokazu; Yamaguchi, Etsuji; Nakayama, Hayashi

2006-01-01

The purpose of this study is to refine Japanese elementary science activity structures by using a CSCL approach to transform the classroom into a knowledge-building community. We report design studies on two science lessons in two consecutive years and describe the progressive refinement of the activity structures. Through comparisons of student…

Teaching Physical Science through Children's Literature. 20 Complete Lessons for Elementary Grades.

ERIC Educational Resources Information Center

Gertz, Susan E.; Portman, Dwight J.; Sarquis, Mickey

This guide focuses on teaching hands-on, discovery-oriented physical science in the elementary classroom using children's literature. Each lesson is an integrated learning episode with a clearly defined science content objective which is supported and enriched through literature, writing, and mathematics. The three sections are: (1) "Properties of…

Elementary Science Education in Classrooms and Outdoors: Stakeholder Views, Gender, Ethnicity, and Testing

ERIC Educational Resources Information Center

Carrier, Sarah J.; Thomson, Margareta M.; Tugurian, Linda P.; Stevenson, Kathryn Tate

2014-01-01

In this article, we present a mixed-methods study of 2 schools' elementary science programs including outdoor instruction specific to each school's culture. We explore fifth-grade students in measures of science knowledge, environmental attitudes, and outdoor comfort levels including gender and ethnic differences. We further examine students'…

Examining How Activity Shapes Students' Interactions While Creating Representations in Early Elementary Science

ERIC Educational Resources Information Center

Danish, Joshua Adam; Saleh, Asmalina

2014-01-01

It is common practice in elementary science classrooms to have students create representations, such as drawings, as a way of exploring new content. While numerous studies suggest the benefits of representation in science, the majority focus on specific, canonical representations, such as graphs. Few offer insight or guidance regarding how…

Learning Science through Talking Science in Elementary Classroom

ERIC Educational Resources Information Center

Tank, Kristina Maruyama; Coffino, Kara

2014-01-01

Elementary students in grade two make sense of science ideas and knowledge through their contextual experiences. Mattis Lundin and Britt Jakobson find in their research that early grade students have sophisticated understandings of human anatomy and physiology. In order to understand what students' know about human body and various systems,…

Prospective Elementary Teachers' Understanding of the Nature of Science and Perceptions of the Classroom Learning Environment

ERIC Educational Resources Information Center

Martin-Dunlop, Catherine S.

2013-01-01

This study investigated prospective elementary teachers' understandings of the nature of science and explored associations with their guided-inquiry science learning environment. Over 500 female students completed the Nature of Scientific Knowledge Survey (NSKS), although only four scales were analyzed-Creative, Testable, Amoral, and Unified. The…

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…

Integrating Science Methods with Professional Development

ERIC Educational Resources Information Center

Vick, Matthew

2017-01-01

Learning to teach elementary science well is not only a goal for preservice teachers. This article describes a partnership that has led to an on-site science methods course in an elementary school library that blends pedagogical instruction with practical classroom time to the benefit of inservice and preservice teachers. In the course, both sets…

Mixing It Up: Integrated, Interdisciplinary, Intriguing Science in the Elementary Classroom. An NSTA Press Journals Collection.

ERIC Educational Resources Information Center

National Science Teachers Association, Arlington, VA.

This compendium of articles from "Science and Children", the elementary school journal of the National Science Teachers Association (NSTA), aims to help teachers build connections in their students' minds. The articles describe lessons and units that are interdisciplinary, both integrated and interdisciplinary, or thematic. Each article is…

Elementary Science Notes

ERIC Educational Resources Information Center

School Science Review, 1972

1972-01-01

Six new experiments are described for use in elementary school classrooms. Phenomena explored include friction, mass of air, kinetic energy, air condensers, and hot-air balloons. Instructions are explicit. (PS)

Elementary Content Specialization: Models, Affordances, and Constraints

ERIC Educational Resources Information Center

Markworth, Kimberly A.; Brobst, Joseph; Ohana, Chris; Parker, Ruth

2016-01-01

Background: This study investigates the models of elementary content specialization (ECS) in elementary mathematics and science and the affordances and constraints related to ECS--both generally and in relation to specific models. Elementary content specialists are defined as full-time classroom teachers who are responsible for content instruction…

Assessing Classroom Learning: How Students Use Their Knowledge and Experience to Answer Classroom Achievement Test Questions in Science and Social Studies.

ERIC Educational Resources Information Center

Nuthall, Graham; Alton-Lee, Adrienne

1995-01-01

Observational studies of student learning from classroom experience in science and social studies in elementary and middle school classrooms were carried out with 14 students. A model is described that explains how students use multilayered episodic and semantic memory for learning experience and related knowledge to answer achievement test items.…

An Inter-Cultural Comparative Study on Elementary Science Teachers' Perceptions of Their Behavior and Inservice Needs between Japan and North Carolina.

ERIC Educational Resources Information Center

Shimizu, Kinya

This study compared several facets of teacher education between Japan and North Carolina. Similarities and differences in elementary science teachers' perceptions of the academic backgrounds in Japan and North Carolina were evaluated as well as similarities and differences in elementary teachers' perceptions of classroom practices in Japan and…

The PISCES Project: How Teacher-Scientist Partners can Enhance Elementary Science Instruction

NASA Astrophysics Data System (ADS)

Reif, C.; Oechel, W.

2003-12-01

The PISCES Project (Partnerships Involving the Scientific Community in Elementary Schools www.sdsa.org/pisces) is an innovative program that brings high quality standards-based elementary science curriculum and hands-on laboratory materials into San Diego County's classrooms. The project is funded by the NSF Graduate Teaching Fellows in K-12 Education (GK-12) program. The project was designed and is administered through cooperation among faculty at San Diego State University and the Science Department of the San Diego County Office of Education. Undergraduate and graduate students enrolled in science programs in San Diego area universities including San Diego State University, California State University San Marcos, and University of California San Diego partner with elementary school teachers. Through this partnership, the scientist brings scientific expertise to the classroom while the teacher delivers the lesson using current pedagogic methods. This is accomplished during a 3 month partnership in which the scientist joins the teacher in the classroom a few days each week to complete professional kit-based curriculum such as that available from FOSS (Full Option Science System) and STC (Science and Technology for Children). The teachers remain in the program for two years during which they have continuous access to the kit-based curriculum as well as two to three partnership cycles. Teachers receive assistance outside of the classroom as well attending professional development institutes three times a year to establish and maintain effective science teaching methods. The San Diego Science Alliance and other community and industry supporters provide the additionalfunding necessary to provide this teacher professional development Currenty, PISCES is present in over 40 schools and is able to provide partnerships to over 100 classrooms each year. In addition to the work done in San Diego, the project has expanded to Barrow, Alaska with plans to expand to La Paz, Mexico where there are SDSU climate research stations. San Diego and Alaska scientists travel to Barrow twice a year to participate in an intense, month-long science instruction partnership. PISCES collects a variety of data including student work, science attitude surveys, interviews with students and teachers, video, as well as science content knowledge. The students find themselves enjoying science and are deeply impacted by the presence of an actual scientist in their classroom. As PISCES enters its fifth year, it is evident that the combination of continuous support inside and outside of the classroom is successful in developing teacher engagement in science instruction.

Think Scientifically: Hiding Science in a Storybook

NASA Astrophysics Data System (ADS)

Van Norden, W. M.; Wawro, M.

2013-12-01

The pressure to focus on math and reading at the elementary level has increased in recent years. As a result, science education has taken a back seat in elementary classrooms. The Think Scientifically book series provides a way for science to easily integrate with existing math and reading curriculum. This story-based science literature program integrates a classic storybook format with solid solar science, to make an educational product that meets state literacy standards. Each story is accompanied by hands-on labs and activities that teachers can easily conduct in their classrooms with minimal training and materials, as well as math and language arts extensions and assessment questions. These books are being distributed through teacher workshops and conferences.

Elementary and middle school science improvement project

NASA Technical Reports Server (NTRS)

Mcguire, Saundra Yancy

1987-01-01

The Alabama A & M University Elementary and Middle School Science Improvement Project (Project SIP) was instituted in response to a need to improve the ability of North Alabama teachers to teach science effectively using the experimental or hands-on approach. The major component of the project was a two-week workshop. Follow-up visits were made to the classrooms of many of the participating teachers to obtain information on how the program was being implemented in the classroom. The administrative aspects of the program, the delivery of the services to participating teachers, and the project outcomes are addressed.

It's in the Bag!: Going beyond the Science Classroom with Take-Home Literacy Bags

ERIC Educational Resources Information Center

Martin, Susan Ferguson; Daughenbaugh, Lynda; Shaw, Edward L., Jr.; Burch, Katrina

2013-01-01

Although literacy plays a large role in elementary science classrooms, one thing that offers a challenge for educators is meeting the linguistic needs of English language learners (ELLs) while also meeting their content needs. An additional challenge is ensuring that academic literacy extends beyond the classroom. This article presents ways of…

Five male preservice elementary teachers: Their understandings, beliefs and practice regarding science teaching

NASA Astrophysics Data System (ADS)

Hoover, Barbara Grambo

Many factors influence teacher choices concerning the frequency, instructional methods, and content of science teaching. Although the role of gender in science learning has been studied extensively, the gender of elementary teachers as it intersects their teaching of science has not been investigated. In this ethnographic study, I focused on five male preservice elementary teachers as they experienced their student teaching internship, aiming to understand their underlying beliefs about science and science teaching and how those beliefs influenced their practice. In an attempt to illuminate the complex interplay of personality, experience, interests, and gender in the professional lives of these men, this study emphasized the importance of context in the formation and expression of their science beliefs and pedagogy. For this reason, I collected data from a number of sources. From September, 2001 to May, 2002, I observed my participants in their science methods courses and on multiple occasions as they taught science in elementary classrooms in a suburban school district. I reviewed journal entries required for the science methods class and examined documents such as handouts, readings and teacher guides from their elementary teaching experience. I conducted semi-structured and informal interviews. I analyzed data from these sources using grounded theory methodology. Although these five men had many similarities, they differed in their love of science, their exposure to science, their avocational interests, and their views of science pedagogy. This study, however, revealed a unifying theme: each participant had his own set of personal and academic resources that he carried into the classroom and used to construct a distinctive science learning environment. Some of these resources intersect with gender. For example, several men had science-related avocational interests. There was a common emphasis on creating a relaxed, enjoyable, hands-on teaching environment as reported in other studies of male elementary teachers. These findings have implications for elementary school science teaching and recruitment goals for elementary teachers that should be further explored in additional studies.

Using Problem-Solving Steps and Audience Roles To Increase Student Engagement in Elementary Civics Instruction.

ERIC Educational Resources Information Center

Beck, Terence A.

Leslie Herrenkohl's work in science (1998) has demonstrated that introducing "problem-solving steps" and "audience roles" to an elementary classroom can have a dramatic impact on rates of student engagement as measured through classroom talk. It is not known to what extent the success of the intervention was due to its…

Analysis of Teaching Resources for Implementing an Interdisciplinary Approach in the K-12 Classroom

ERIC Educational Resources Information Center

Yarker, Morgan B.; Park, Soonhye

2012-01-01

Articles from the National Science Teacher Association (NSTA) publications were analyzed to investigate resources available for teachers who want to implement interdisciplinary approaches into the science classroom. All articles in each journal from 2004 through 2008 were read an analyzed; approximately 13% of Science & Children (elementary), 21%…

The Principle-Practical Discourse Edge: Elementary Preservice and Mentor Teachers Working Together on Colearning Tasks

ERIC Educational Resources Information Center

Gunckel, Kristin L.; Wood, Marcy B.

2016-01-01

A major challenge in preparing elementary teachers to teach inquiry-based science is finding qualified mentor teachers who use research-based approaches to teach science in their classrooms. This situation means preservice teachers often see few connections between the research-based principles for teaching science they learn in university-based…

Infusing Science, Technology, and Society Into an Elementary Teacher Education Program: The Impact on Preservice Teachers

ERIC Educational Resources Information Center

Henning, Mary Beth; Peterson, Barbara R.; King, Kenneth Paul

2011-01-01

In an effort to improve science and social studies instruction, preservice teachers developed original science, technology, and society units to teach in elementary and middle school classrooms during their clinical field experience. Data revealed that the preservice teachers fell into categories of being skeptics, open-minded instructors, or…

Problems with Science Teaching and Learning for English Language Learners in One Diverse Elementary School

ERIC Educational Resources Information Center

Rodriguez, Karen Margaret

2012-01-01

This qualitative study centered on science instruction and learning that occurred in a Title I elementary school in a suburban district in southeast Texas. Twelve teachers were interviewed in order to understand their perceptions of their classroom practices in terms of science instruction and learning for English Language Learners (ELL). This…

How does a Next Generation Science Standard Aligned, Inquiry Based, Science Unit Impact Student Achievement of Science Practices and Student Science Efficacy in an Elementary Classroom?

NASA Astrophysics Data System (ADS)

Whittington, Kayla Lee

This study examined the impact of an inquiry based Next Generation Science Standard aligned science unit on elementary students' understanding and application of the eight Science and Engineering Practices and their relation in building student problem solving skills. The study involved 44 second grade students and three participating classroom teachers. The treatment consisted of a school district developed Second Grade Earth Science unit: What is happening to our playground? that was taught at the beginning of the school year. Quantitative results from a Likert type scale pre and post survey and from student content knowledge assessments showed growth in student belief of their own abilities in the science classroom. Qualitative data gathered from student observations and interviews performed at the conclusion of the Earth Science unit further show gains in student understanding and attitudes. This study adds to the existing literature on the importance of standard aligned, inquiry based science curriculum that provides time for students to engage in science practices.

Que es la Ciencia? What Is Science? A Question for All Students.

ERIC Educational Resources Information Center

Spurlin, Quincy; Blanco, George

This teacher's guide offers classroom techniques for teaching science to bilingual elementary students. Recommendations are made for improving teaching by: lowering students' affective filters; providing comprehensible input; providing for language output; creating a supportive environment; adjusting classroom teaching style; teaching…

Taking risks with a growth mindset: long-term influence of an elementary pre-service after school science practicum

NASA Astrophysics Data System (ADS)

Cartwright, T. J.; Hallar, B.

2018-02-01

In this study, we present the long-term influence of an after school science practicum associated with an elementary science methods course. The practicum or field experience could be considered a community-based service learning programme as it is situated both within and for the community. Study participants included eight third- and fifth-grade teachers who had participated in elementary science methods courses; four of these teachers participated in the after school teaching practicum while four participants experienced a more traditional observation-based elementary science practicum. All of these teachers were in their second or third year teaching which was 3-4 years after taking the methods course. Investigation methods included questionnaires, field observations and semi-structured, individual interviews. Teachers more regularly utilised reform-based teaching strategies and cited the after school teaching practicum as preparing them to use these strategies in their own classrooms. All teachers exhibited a growth mindset to some degree, but the after school practicum participants did demonstrate a wider use of reformed-based teaching strategies and a higher growth mindset. Elementary teachers perceive risk associated with these key aspects of instruction: (1) managing instruction and classroom management, (2) teaching science through guided inquiry, and (3) overcoming adoptions in other 'mandated' curriculum like math and reading.

Living Organisms for the Elementary Classroom.

ERIC Educational Resources Information Center

Hampton, Carolyn H.; Hampton, Carol D.

This publication was prepared for elementary teachers and other local personnel responsible for providing, maintaining and using living organisms to enhance elementary science programs. The manual contains a foreword, general information, and an appendix. It gives information concerning equipment and supplies, establishing and maintaining an…

The effects of formative assessment on student self-regulation, motivational beliefs, and achievement in elementary science

NASA Astrophysics Data System (ADS)

King, Melissa Digennaro

Goals 2000 set forth a bold vision for U.S. students: they would be "first in the world in science and mathematics" by the year 2000. Performance indicators such as the TIMSS-R (1999) and NAEP (2000) reports suggest that U.S. students have not yet reached that goal. This study intended to learn how specific assessment strategies might contribute to improved student performance in science. This quasi-experimental study investigated the effects of formative assessment with reflection on students' motivational beliefs, self-regulatory skills, and achievement in elementary science. The study aimed to find out whether and how classroom applications of formative assessment during science instruction might influence fifth-grade students' attitudes and self-perceptions about science learning, self-regulatory learning behaviors, and achievement. To explore the effects of the assessment intervention, the study utilized a mixed methods approach involving quantitative and qualitative investigations of treatment and control groups during a four-week intervention period. Quantitative measures included student self-report surveys administered pre- and post-treatment and an end-of-unit science test. Qualitative measures included classroom observations, student interviews (post-treatment), and a teacher interview (post-treatment). Findings indicated that the fifth-grade students in this study had positive attitudes toward science and high levels of self-efficacy for science. Results suggested that these elementary students employed a wide variety of cognitive and metacognitive strategies to support science learning. Findings revealed that these fifth graders believed formative assessment with reflection was beneficial for science learning outcomes. Research results did not show that the formative assessment intervention contributed to significant differences between treatment and control groups. However, the data revealed different levels of academic achievement and self-regulation for students in specific instructional services subgroups (i.e., gifted, regular education, special education, and ESL). For example, high achieving students reported higher levels of self-regulatory learning behavior than other fifth grade students. Findings suggested that elementary science instruction that includes classroom applications of formative assessment with reflection may provide support for science learning and the development of self-regulatory learning behavior. However, widespread implementation of this practice in elementary science classrooms represents significant challenges for today's educators, due to time limitations and increasing accountability pressures in our nation's schools.

Aerospace Science Education, A Curriculum Guide.

ERIC Educational Resources Information Center

Hilburn, Paul

This curriculum guide was developed by the Alaska State Department of Education for the purpose of aiding elementary and secondary school teachers in incorporating elements of aerospace science in the classroom. The section of the guide designed for elementary school teachers includes chapters under the headings: Aircraft, Airports, Weather,…

Free Teaching Materials: Classroom and Curriculum Aids for Elementary School Science.

ERIC Educational Resources Information Center

Raimist, Roger J.; Mester, Rose A.

Free teaching materials suitable for elementary school science available from 168 agencies and companies are listed. Materials include booklets, teacher's source books and guides, charts and posters, and concrete materials such as mineral samples. Suggestions and materials for student activities range from experiments to song sheets. Topics…

Children's Environmental Identity and the Elementary Science Classroom

ERIC Educational Resources Information Center

Tugurian, Linda P.; Carrier, Sarah J.

2017-01-01

This qualitative research explores children's environmental identity by describing how fifth grade children view their relationship with the natural world alongside their experience of elementary school science. Qualitative analysis of in-depth interviews with 17 grade 5 children was supported with a survey that included responses to open-ended…

Explanation-Construction in Fourth-Grade Classrooms in Germany and the USA: A cross-national comparative video study

NASA Astrophysics Data System (ADS)

Forbes, Cory; Lange, Kim; Möller, Kornelia; Biggers, Mandy; Laux, Mira; Zangori, Laura

2014-09-01

To help explain the differences in students' performance on internationally administered science assessments, cross-national, video-based observational studies have been advocated, but none have yet been conducted at the elementary level for science. The USA and Germany are two countries with large formal education systems whose students underperform those from peers on internationally administered standardized science assessments. However, evidence from the 2011 Trends in International Mathematics and Science Exam assessment suggests fourth-grade students (9-10 year-olds) in the USA perform higher than those in Germany, despite more instructional time devoted to elementary science in Germany. The purpose of this study is to comparatively analyze fourth-grade classroom science in both countries to learn more about how teachers and students engage in scientific inquiry, particularly explanation-construction. Videorecordings of US and German science instruction (n 1 = 42, n 2 = 42) were sampled from existing datasets and analyzed both qualitatively and quantitatively. Despite German science lessons being, on average, twice as long as those in the USA, study findings highlight many similarities between elementary science in terms of scientific practices and features of scientific inquiry. However, they also illustrate crucial differences around the scientific practice of explanation-construction. While students in German classrooms were afforded more substantial opportunities to formulate evidence-based explanations, US classrooms were more strongly characterized by opportunities for students to actively compare and evaluate evidence-based explanations. These factors may begin to help account for observed differences in student achievement and merit further study grounded in international collaboration.

Analyzing Stories Told by an Elementary Science Teacher in a Fifth-Grade Classroom

ERIC Educational Resources Information Center

Trotman, Alicia M.

2012-01-01

The purpose of this qualitative study was to analyze and interpret the stories told by one teacher, Ms. M, in a fifth grade science classroom. In this study, stories are defined as teacher utterances that are used in first person or third person narrative view, and are related to an experience that occurred outside the classroom. This research…

The nature of science and the preservice elementary teacher: Changes in understanding and practice

NASA Astrophysics Data System (ADS)

Rivas, Michael Gerald

This action research project studies preservice elementary teachers in a science methods course. The purpose of this research project was to enhance preservice teachers' understanding of specific nature of science (NOS) tenets so as to promote equity and access within the elementary science classroom. In particular, I chose five NOS tenets that were listed in the first chapter of the AAAS (1989) document titled, "The Nature of Science," and connected them to equitable educational goals and practices. The theoretical framework guiding this study came from bodies of scholarship relating to the NOS, social constructivism, and action research. This study addressed the following three questions: (1) What opportunities were provided the preservice teachers so that they could enhance their understandings of the NOS? (2) What were the changes in preservice teachers' understanding of the NOS as a result? (3) How did the prospective teachers' understandings of the NOS translate into their classroom practice? The analysis revealed that the science methods course's operational curriculum consisted of implicit and explicit teaching of the NOS, as well as intended and untended NOS tenets. The prospective teachers initially held a limited view of the NOS, but by the end of the course their view had been enhanced. In addition, the participants made direct connections between their new understandings of the NOS and equity and access in the science classroom. In their teaching, the preservice teachers as a group implicitly taught all five of the NOS tenets. In fact, a majority taught three of the five intended tenets. Explicitly, only one tenet was taught, but it was taught with a direct connection to making the science classroom more inclusive. The findings of this study indicate that preservice teachers can have their views of the NOS enhanced even though they may have experienced years of deficient science instruction. They pointed out that this enhanced view of the NOS can be translated into classroom practice. The findings also showed that a direct connection can be made between understandings of the NOS and issues of equity and access at the elementary level.

Supporting Integrated STEM in the Elementary Classroom: A Professional Development Approach Centered on an Engineering Design Challenge

ERIC Educational Resources Information Center

Estapa, Anne T.; Tank, Kristina M.

2017-01-01

Background: Science, technology, engineering, and mathematics (STEM) education is becoming more prevalent at the elementary level, and there has been a push to focus on the integration between the STEM disciplines. Researchers within this study sought to understand the extent to which triads composed of a classroom teacher, student teacher, and an…

Examining student-generated questions in an elementary science classroom

NASA Astrophysics Data System (ADS)

Diaz, Juan Francisco, Jr.

This study was conducted to better understand how teachers use an argument-based inquiry technique known as the Science Writing Heuristic (SWH) approach to address issues on teaching, learning, negotiation, argumentation, and elaboration in an elementary science classroom. Within the SWH framework, this study traced the progress of promoting argumentation and negotiation (which led to student-generated questions) during a discussion in an elementary science classroom. Speech patterns during various classroom scenarios were analyzed to understand how teacher--student interactions influence learning. This study uses a mixture of qualitative and quantitative methods. The qualitative aspect of the study is an analysis of teacher--student interactions in the classroom using video recordings. The quantitative aspect uses descriptive statistics, tables, and plots to analyze the data. The subjects in this study were fifth grade students and teachers from an elementary school in the Midwest, during the academic years 2007/2008 and 2008/2009. The three teachers selected for this study teach at the same Midwestern elementary school. These teachers were purposely selected because they were using the SWH approach during the two years of the study. The results of this study suggest that all three teachers moved from using teacher-generated questions to student-generated questions as they became more familiar with the SWH approach. In addition, all three promoted the use of the components of arguments in their dialogs and discussions and encouraged students to elaborate, challenge, and rebut each other's ideas in a non-threatening environment. This research suggests that even young students, when actively participating in class discussions, are capable of connecting their claims and evidence and generating questions of a higher-order cognitive level. These findings demand the implementation of more professional development programs and the improvement in teacher education to help teachers confidently implement argumentative practices and develop pedagogical strategies to help students use them.

What goal is of most worth? The effects of the implementation of the Texas Assessment of Knowledge and Skills on elementary science teaching

NASA Astrophysics Data System (ADS)

Rodgers, Pamela England

This qualitative, narrative study centered on the effects of the implementation of the science portion of the fifth grade Texas Assessment of Knowledge and Skills (TAKS) on the instruction of science at the elementary level, grades one through five. Fourteen teachers and five administrators were interviewed at two elementary schools (kindergarten through grade four) and one middle school (grades five and six). Classroom observations of each of the teachers were also conducted. The study focused on the effect of the implementation of the science TAKS on the amount of time spent on science as well as the instructional methods utilized in the elementary science classroom. Lower grade levels were found to have changed little in these areas unless strong administrative leadership---emphasizing curriculum alignment, providing adequate materials and facilities, and encouraging sustained, content-based professional development in science---was present in the school. At the fifth grade level, however, the amount of time spent on science had increased significantly, although the instructional methods utilized by the teachers were focused more often upon increasing ratings on the test rather than providing the research-based best practice methods of hands-on, inquiry-based science instruction. In addition, the study also explored the teachers' and administrators' perceptions of the state and local mandates concerning science instruction and preparation for the TAKS. Other topics that came to light during the course of the study included the teachers' views on accountability and the effects of the state assessments on children in their classrooms. It was found that most teachers readily accept accountability for themselves, but are opposed to one-shot high-stakes tests which they feel are damaging for their students emotionally and academically---adversely affecting their love of learning science.

Aligning Teaching to Learning: A 3-Year Study Examining the Embedding of Language and Argumentation into Elementary Science Classrooms

ERIC Educational Resources Information Center

Hand, Brian; Norton-Meier, Lori A.; Gunel, Murat; Akkus, Recai

2016-01-01

How can classrooms become communities of inquiry that connect intellectually challenging science content with language-based activities (opportunities to talk, listen, read, and write) especially in settings with diverse populations? This question guided a 3-year mixed-methods research study using the Science Writing Heuristic (SWH) approach in…

Developing Elementary Science PCK for Teacher Education: Lessons Learned from a Second Grade Partnership

NASA Astrophysics Data System (ADS)

Bradbury, Leslie U.; Wilson, Rachel E.; Brookshire, Laura E.

2017-06-01

In this self-study, two science educators partnered with two elementary teachers to plan, implement, and reflect on a unit taught in second grade classrooms that integrated science and language arts. The researchers hoped to increase their pedagogical content knowledge (PCK) for elementary science teaching so that they might use their experiences working in an elementary context to modify their practices in their elementary science method instruction. The research question guiding the study was: What aspects of our PCK for elementary science teaching do we as science educators develop by co-planning, co-teaching, and reflecting with second grade teachers? Data include transcripts of planning meetings, oral reflections about the experience, and videos of the unit being enacted. Findings indicate that managing resources for science teaching, organizing students for science learning, and reflecting on science teaching were themes prevalent in the data. These themes were linked to the model of PCK developed by Park and Oliver (Research in Science Education, 38, 261-284, 2008) and demonstrate that we developed PCK for elementary science teaching in several areas. In our discussion, we include several proposed changes for our elementary science methods course based on the outcomes of the study.

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

NASA Astrophysics Data System (ADS)

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

2001-05-01

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

Evaluation of Bacterial & Fungal Culture Practices in School Classrooms

ERIC Educational Resources Information Center

Weese, J. Scott

2009-01-01

A wide range of activities may be undertaken in elementary and secondary school science laboratories as part of regular curricular activities or optional classroom activities, including science fair projects. Among these is the culturing of microorganisms such as bacteria or fungi. There are various potential educational opportunities associated…

Children's Attitudes and Classroom Interaction in an Intergenerational Education Program

ERIC Educational Resources Information Center

Dunham, Charlotte Chorn; Casadonte, Dominick

2009-01-01

This research reports findings from an intergenerational science program, Project Serve, which placed senior volunteers in elementary and junior high science classrooms to assist teachers and augment instruction. Items from the Children's View of Aging survey (Newman, 1997; Newman & Faux, 1997) were administered before and after the project with…

Animals in the Classroom: A Guide for Teachers. Elementary Science Study.

ERIC Educational Resources Information Center

Gillmor, Mary S.; And Others

This guide is designed to encourage people to keep animals of all kinds in the classroom and to use them in teaching language arts, mathematics, and social studies, as well as science and nature study. The booklet is divided into four sections. The first section contains an account of a year with desert animals in an ungraded classroom of six- to…

Interacting with a Suite of Educative Features: Elementary Science Teachers' Use of Educative Curriculum Materials

ERIC Educational Resources Information Center

Arias, Anna Maria; Bismack, Amber Schultz; Davis, Elizabeth A.; Palincsar, Annemarie Sullivan

2016-01-01

New reform documents underscore the importance of learning both the practices and content of science. This integration of practices and content requires sophisticated teaching that does not often happen in elementary classrooms. Educative curriculum materials--materials explicitly designed to support teacher and student learning--have been posited…

De-Marginalizing Science in the Elementary Classroom by Coaching Teachers to Address Perceived Dilemmas

ERIC Educational Resources Information Center

Berg, Alissa; Mensah, Felicia Moore

2014-01-01

This study identifies and explores the dilemmas experienced by three first-grade teachers in teaching elementary school science. The impact of coaching and teachers' career stages on how teachers reconcile their dilemmas was examined. Results of this comparative case study indicate teachers perceived tensions between focusing instructional…

The Effects of Mentored Problem-Based STEM Teaching on Pre-Service Elementary Teachers: Scientific Reasoning and Attitudes Toward STEM Subjects

NASA Astrophysics Data System (ADS)

Caliendo, Julia C.

Problem-based learning in clinical practice has become an integral part of many professional preparation programs. This quasi-experimental study compared the effect of a specialized 90-hour field placement on elementary pre-service teachers' scientific reasoning and attitudes towards teaching STEM (science, technology, engineering, and math) subjects. A cohort of 53 undergraduate elementary education majors, concurrent to their enrollment in science and math methods classes, were placed into one of two clinical practice experiences: (a) a university-based, problem-based learning (PBL), STEM classroom, or (b) a traditional public school classroom. Group gain scores on the Classroom Test of Scientific Reasoning (CTSR) and the Teacher Efficacy and Attitudes Toward STEM Survey-Elementary Teachers (T-STEM) survey were calculated. A MANCOVA revealed that there was a significant difference in gain scores between the treatment and comparison groups' scientific reasoning (p = .011) and attitudes towards teaching STEM subjects (p = .004). The results support the hypothesis that the pre-service elementary teachers who experienced STEM mentoring in a PBL setting will have an increase in their scientific reasoning and produce positive attitudes towards teaching STEM subjects. In addition, the results add to the existing research suggesting that elementary pre-service teachers require significant academic preparation and mentored support in STEM content.

How the nature of science is presented to elementary students in science read-alouds

NASA Astrophysics Data System (ADS)

Rivera, Seema

Students as early as elementary school age are capable of learning the aspects of the nature of science (NOS), and the National Benchmarks incorporate the NOS as part of the learning objectives for K--2 students. Learning more about elementary science instruction can aid in understanding how the NOS can be taught or potentially integrated into current teaching methods. Although many teaching methods exist, this study will focus on read-alouds because they are recommended for and are very common in elementary schools. The read-aloud practice is particularly helpful to young students because most of these students have a higher listening comprehension than reading comprehension. One of the main components of the read-aloud practice is the discourse that takes place about the trade book. Both explicit and implicit messages are communicated to students by teachers' language and discussion that takes place in the classroom. Therefore, six multisite naturalistic case studies were conducted to understand elementary teachers' understanding of the NOS, students' understandings of the NOS, trade book representations of the NOS, and read-aloud practices and understandings in upstate New York. The findings of the study revealed that teachers and students held mostly naive and mixed understandings of the NOS. The trade books that had explicit connections to the NOS helped teachers discuss NOS related issues, even when the teachers did not hold strong NOS views. Teachers who held more informed NOS views were able to ask students NOS related questions. All teachers showed they need guidance on how to translate their NOS views into discussion and see the significance of the NOS in their classroom. Explicit NOS instruction can improve student understanding of the NOS, however the focus should be not only on teachers and their NOS understanding but also on the books used. These results show that quality trade books with explicit connections to the NOS are a useful instructional tool in elementary science classrooms. The results of the study encourage more science education research in the science read-aloud practice. Keywords: NOS, read-aloud, elementary

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

NASA Astrophysics Data System (ADS)

Tobias, Karen Marie

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

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.

"It's What We Use as a Community": Exploring Students' STEM Characterizations In Two Montessori Elementary Classrooms

NASA Astrophysics Data System (ADS)

Szostkowski, Alaina Hopkins

Integrated science, technology, engineering, and mathematics (STEM) education promises to enhance elementary students' engagement in science and related fields and to cultivate their problem-solving abilities. While STEM has become an increasingly popular reform initiative, it is still developing within the Montessori education community. There is limited research on STEM teaching and learning in Montessori classrooms, particularly from student perspectives. Previous studies suggest productive connections between reform-based pedagogies in mainstream science education and the Montessori method. Greater knowledge of this complementarity, and student perspectives on STEM, may benefit both Montessori and non-Montessori educators. This instrumental case study of two elementary classrooms documented student characterizations of aspects of STEM in the context of integrated STEM instruction over three months in the 2016-2017 school year. Findings show that the Montessori environment played an important role, and that students characterized STEM in inclusive, agentive, connected, helpful, creative, and increasingly critical ways. Implications for teaching and future research offer avenues to envision STEM education more holistically by leveraging the moral and humanistic aspects of Montessori philosophy.

The Investigation of Attitude Changes of Elementary Preservice Teachers in a Competency-Based, Field-Oriented Science Methods Course and Attitude Changes of Classroom Teachers Cooperating with the Field Component.

ERIC Educational Resources Information Center

Piper, Martha K.

Thirty-six students enrolled in an elementary science methods course were randomly selected and given an instrument using Osgood's semantic differential approach the first week of class, the sixth week on campus prior to field experiences, and the thirteenth week following field experiences. The elementary teachers who had observed the university…

Computer Programming Effects in Elementary: Perceptions and Career Aspirations in STEM

ERIC Educational Resources Information Center

Tran, Yune

2018-01-01

The development of elementary-aged students' STEM and computer science (CS) literacy is critical in this evolving technological landscape, thus, promoting success for college, career, and STEM/CS professional paths. Research has suggested that elementary-aged students need developmentally appropriate STEM integrated opportunities in the classroom;…

Using Technology to Engage Preservice Elementary Teachers in Learning about Scientific Inquiry

ERIC Educational Resources Information Center

Jones, Loretta L.; MacArthur, James R.; Akaygün, Sevil

2011-01-01

Elementary teachers are often required to teach inquiry in their classrooms despite having had little exposure to inquiry learning themselves. In a capstone undergraduate science course preservice elementary teachers experience scientific inquiry through the completion of group projects, activities, readings and discussion, in order to develop a…

Preservice Elementary Teachers and Explanation Construction: Knowledge-"for"-Practice and Knowledge-"in"-Practice

ERIC Educational Resources Information Center

Zangori, Laura; Forbes, Cory T.

2013-01-01

Effectively designed science learning environments revolve around students' sensemaking through the use of evidence to ground explanations about natural phenomena. However, little research has been conducted to investigate elementary teachers' learning to promote students' sensemaking in elementary (K-5) classrooms. The purpose of this…

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.

Questioning Questions: Elementary Teachers' Adaptations of Investigation Questions Across the Inquiry Continuum

NASA Astrophysics Data System (ADS)

Biggers, Mandy

2018-02-01

Questioning is a central practice in science classrooms. However, not every question translates into a "good" science investigation. Questions that drive science investigations can be provided by many sources including the teacher, the curriculum, or the student. The variations in the source of investigation questions were explored in this study. A dataset of 120 elementary science classroom videos and associated lesson plans from 40 elementary teachers (K-5) across 21 elementary school campuses were scored on an instrument measuring the amount of teacher-direction or student-direction of the lessons' investigation questions. Results indicated that the investigation questions were overwhelmingly teacher directed in nature, with no opportunities for students to develop their own questions for investigation. This study has implications for researchers and practitioners alike, calling attention to the teacher-directed nature of investigation questions in existing science curriculum materials, and the need for teacher training in instructional strategies to adapt their existing curriculum materials across the continuum of teacher-directed and student-directed investigation questions. Teachers need strategies for adapting the teacher-directed questions provided in their existing curriculum materials in order to allow students the opportunity to engage in this essential scientific practice.

The impact of science methods courses on preservice elementary teachers' science teaching self-efficacy beliefs: Case studies from Turkey and the United States

NASA Astrophysics Data System (ADS)

Bursal, Murat

Four case studies in two American and two Turkish science methods classrooms were conducted to investigate the changes in preservice elementary teachers' personal science teaching efficacy (PSTE) beliefs during their course periods. The findings indicated that while Turkish preservice elementary teachers (TR sample) started the science methods course semester with higher PSTE than their American peers (US sample), due to a significant increase in the US sample's and an insignificant decline in the TR sample's PSTE scores, both groups completed the science methods course with similar PSTE levels. Consistent with Bandura's social cognitive theory, describing four major sources of self-efficacy, the inclusion of mastery experiences (inquiry activities and elementary school micro-teaching experiences) and vicarious experiences (observation of course instructor and supervisor elementary teacher) into the science methods course, providing positive social persuasion (positive appraisal from the instructor and classmates), and improving physiological states (reduced science anxiety and positive attitudes toward becoming elementary school teachers), were found to contribute to the significant enhancement of the US sample's PSTE beliefs. For the TR sample, although some of the above sources were present, the lack of student teaching experiences and inservice teacher observations, as well as the TR samples' negative attitudes toward becoming elementary school teachers and a lack of positive classroom support were found to make Turkish preservice teachers rely mostly on their mastery in science concepts, and therefore resulted in not benefiting from their science methods course, in terms of enhancing their PSTE beliefs. Calls for reforms in the Turkish education system that will include more mastery experiences in the science methods courses and provide more flexibility for students to choose their high school majors and college programs, and switch between them are made. In addition to the mastery experiences contributing to the PSTE beliefs, this study reported that preservice elementary teachers' unawareness of their science misconceptions also results in enhancing their self-efficacy, which is troublesome. Revisions in science content courses to employ inquiry activities, designed for addressing and correcting students' misconceptions, are recommended to overcome teacher candidates' lack of science competency and negative attitudes toward science.

Developing Elementary Teachers' Understandings of Hedges and Personal Pronouns in Inquiry-Based Science Classroom Discourse

NASA Astrophysics Data System (ADS)

Oliveira, Alandeom W.

2010-02-01

This study examined the effectiveness of introducing elementary teachers to the scholarly literature on personal pronouns and hedges in classroom discourse, a professional development strategy adopted during a summer institute to enhance teachers’ social understanding (i.e., their understanding of the social functions of language in science discussions). Teachers became aware of how hedges can be employed to remain neutral toward students’ oral contributions to classroom discussions, invite students to share their opinions and articulate their own ideas, and motivate students to inquire. Teachers recognized that the combined use of I and you can render their feedback authoritative, you can shift the focus from the investigation to students’ competence, and we can lead to authority loss. It is argued that explicitness, reflectivity, and contextualization are essential features of professional development programs aimed at improving teachers’ understandings of the social dimension of inquiry-based science classrooms and preparing teachers to engage in inquiry-based teacher-student interactions.

Think Scientifically: Science Hidden in a Storybook

NASA Astrophysics Data System (ADS)

Van Norden, W. M.

2012-12-01

The Solar Dynamics Observatory's Think Scientifically (TS) program links literacy and science in the elementary classroom through an engaging storybook format and hands-on, inquiry based activities. TS consists of three illustrated storybooks, each addressing a different solar science concept. Accompanying each book is a hands-on science lesson plan that emphasizes the concepts addressed in the book, as well as math, reading, and language arts activities. Written by teachers, the books are designed to be extremely user-friendly and easy to implement in classroom instruction. The objectives of the program are: (1) to increase time spent on science in elementary school classrooms, (2) to assist educators in implementing hands-on science activities that reinforce concepts from the book, (3) to increase teacher capacity and comfort in teaching solar concepts, (4) to increase student awareness and interest in solar topics, especially students in under-served and under-represented communities. Our program meets these objectives through the National Science Standards-based content delivered in each story, the activities provided in the books, and the accompanying training that teachers are offered through the program.; ;

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…

Explanation in Science Trade Books Recommended for Use with Elementary Students

ERIC Educational Resources Information Center

Smolkin, Laura B.; McTigue, Erin M.; Donovan, Carol A.; Coleman, Julianne M.

2009-01-01

Given concerns with the low levels of explanation in science education classrooms, it has been suggested that text may supply a higher percentage of explanatory discourse than do classroom teachers. However, given that textbooks have been shown to differ little from teacher discourse in percentages of explanation, the present study sought to…

Formative Assessment Probes: Assessment for All

ERIC Educational Resources Information Center

Keeley, Page

2014-01-01

Today's elementary teachers are faced with many different types of learners in their classrooms. Students come to the science classroom with a wide range of out-of-school experiences, different cultural and economic backgrounds, languages, learning styles, and cognitive levels that affect how they engage in and learn science. Page Keeley,…

Making Physics Fun: Key Concepts, Classroom Activities, and Everyday Examples, Grades K-8

ERIC Educational Resources Information Center

Prigo, Robert

2007-01-01

Teaching physical science in the elementary and middle grades can be challenging for busy teachers faced with growing science demands and limited classroom resources. Robert Prigo provides fun and engaging activities using safe, available materials that educators can easily incorporate into lesson plans. Extensive examples, sample inquiry…

Local and Long Distance Computer Networking for Science Classrooms. Technical Report No. 43.

ERIC Educational Resources Information Center

Newman, Denis

This report describes Earth Lab, a project which is demonstrating new ways of using computers for upper-elementary and middle-school science instruction, and finding ways to integrate local-area and telecommunications networks. The discussion covers software, classroom activities, formative research on communications networks, and integration of…

No Teacher Left Inside: Preparing a New Generation of Teachers

ERIC Educational Resources Information Center

Marcum-Dietrich, Nanette; Marquez, Lynn; Gill, Susan E.; Medved, Christina

2011-01-01

It is ironic that although children often form lasting decisions, at a young age, about their aptitude for and interest in science we are least successful at preparing elementary teachers to nurture their students' science interests. This is despite the fact that most elementary teachers teach in contained classrooms where they are responsible for…

Integrating Engineering into Delaware's K-5 Classrooms: A Study of Pedagogical and Curricular Resources

ERIC Educational Resources Information Center

Grusenmeyer, Linda Huey

2017-01-01

This study examines the personal and curricular resources available to Delaware's elementary teachers during a time of innovative curriculum change, i.e., their knowledge, goals and beliefs regarding elementary engineering curriculum and the pedagogical support to teach two Science and Engineering Practices provided by science teaching materials.…

Rigor in Elementary Science Students' Discourse: The Role of Responsiveness and Supportive Conditions for Talk

ERIC Educational Resources Information Center

Colley, Carolyn; Windschitl, Mark

2016-01-01

Teaching that is responsive to students' ideas can create opportunities for rigorous sense-making talk by young learners. Yet we have few accounts of how thoughtful attempts at responsive teaching unfold across units of instruction in elementary science classrooms and have only begun to understand how responsiveness encourages rigor in…

Group Work in Elementary Science: Towards Organisational Principles for Supporting Pupil Learning

ERIC Educational Resources Information Center

Howe, Christine; Tolmie, Andy; Thurston, Allen; Topping, Keith; Christie, Donald; Livingston, Kay; Jessiman, Emma; Donaldson, Caroline

2007-01-01

Group work has been promoted in many countries as a key component of elementary science. However, little guidance is given as to how group work should be organized, and because previous research has seldom been conducted in authentic classrooms, its message is merely indicative. A study is reported, which attempts to address these limitations.…

Impact of Integrated Science and English Language Arts Literacy Supplemental Instructional Intervention on Science Academic Achievement of Elementary Students

NASA Astrophysics Data System (ADS)

Marks, Jamar Terry

The purpose of this quasi-experimental, nonequivalent pretest-posttest control group design study was to determine if any differences existed in upper elementary school students' science academic achievement when instructed using an 8-week integrated science and English language arts literacy supplemental instructional intervention in conjunction with traditional science classroom instruction as compared to when instructed using solely traditional science classroom instruction. The targeted sample population consisted of fourth-grade students enrolled in a public elementary school located in the southeastern region of the United States. The convenience sample size consisted of 115 fourth-grade students enrolled in science classes. The pretest and posttest academic achievement data collected consisted of the science segment from the Spring 2015, and Spring 2016 state standardized assessments. Pretest and posttest academic achievement data were analyzed using an ANCOVA statistical procedure to test for differences, and the researcher reported the results of the statistical analysis. The results of the study show no significant difference in science academic achievement between treatment and control groups. An interpretation of the results and recommendations for future research were provided by the researcher upon completion of the statistical analysis.

BIOINFORMATICS IN THE K-8 CLASSROOM: DESIGNING INNOVATIVE ACTIVITIES FOR TEACHER IMPLEMENTATION

PubMed Central

Shuster, Michele; Claussen, Kira; Locke, Melly; Glazewski, Krista

2016-01-01

At the intersection of biology and computer science is the growing field of bioinformatics—the analysis of complex datasets of biological relevance. Despite the increasing importance of bioinformatics and associated practical applications, these are not standard topics in elementary and middle school classrooms. We report on a pilot project and its evolution to support implementation of bioinformatics-based activities in elementary and middle school classrooms. Specifically, we ultimately designed a multi-day summer teacher professional development workshop, in which teachers design innovative classroom activities. By focusing on teachers, our design leverages enhanced teacher knowledge and confidence to integrate innovative instructional materials into K-8 classrooms and contributes to capacity building in STEM instruction. PMID:27429860

Toward Understanding the Nature of a Partnership between an Elementary Classroom Teacher and an Informal Science Educator

ERIC Educational Resources Information Center

Weiland, Ingrid S.; Akerson, Valarie L.

2013-01-01

This study explored the nature of the relationship between a fifth-grade teacher and an informal science educator as they planned and implemented a life science unit in the classroom, and sought to define this relationship in order to gain insight into the roles of each educator. In addition, student learning as a result of instruction was…

The Interactional Accomplishment of Not Knowing in Elementary School Science and Mathematics: Implications for Classroom Performance Assessment Practices

ERIC Educational Resources Information Center

Reis, Giuliano; Barwell, Richard

2013-01-01

The day-to-day business of being a science or mathematics teacher involves the continuous assessment of students. This, in turn, is an inherently discursive process. The aim of the present study is to examine some of the specific discursive practices through which science and mathematics knowing is jointly produced through classroom interaction.…

The Roles of Teachers' Science Talk in Revealing Language Demands within Diverse Elementary School Classrooms: A Study of Teaching Heat and Temperature in Singapore

ERIC Educational Resources Information Center

Seah, Lay Hoon; Yore, Larry D.

2017-01-01

This study of three science teachers' lessons on heat and temperature seeks to characterise classroom talk that highlighted the ways language is used and to examine the nature of the language demands revealed in constructing, negotiating, arguing and communicating science ideas. The transcripts from the entire instructional units for these…

Engineering Encounters: Teaching Educators about Engineering

ERIC Educational Resources Information Center

Tank, Kristina M.; Raman, D. Raj; Lamm, Monica H.; Sundararajan, Sriram; Estapa, Anne

2017-01-01

This column presents ideas and techniques to enhance science teaching. This month's issue describes preservice elementary teachers learning engineering principles from engineers. Few elementary teachers have experience with implementing engineering into the classroom. While engineering professional development opportunities for inservice teachers…

Science FEST: Preservice Teachers link Math and Science in Astronomy Lessons

NASA Astrophysics Data System (ADS)

DeMuth, N. H.; Kasabian, J.; Hacking, P. B.

2005-12-01

Funded by the National Science Foundation and corporate sponsored by Northrop Grumman, Science FEST (Science for Future Elementary School Teachers) aims to develop the science content and pedagogy for project participants by connecting their college coursework to the science they will eventually teach. Working individually and in pairs, future elementary and secondary school teachers design a comprehensive module in astronomy that is inquiry-based and reflects national and state science standards. Project participants then teach their module in local elementary or middle school classrooms. Science FEST project participants report gaining a deep understanding of the science they are teaching, learning to engage all students to explore science concepts, and reflecting on their teaching and how it can be improved. The project's website can be found at www.science-fest.org.

Towards the Characterization of Academic Language in Upper Elementary Science Classrooms. CSE Report 621

ERIC Educational Resources Information Center

Bailey, Alison, L.; Butler, Frances A.; LaFramenta, Charmien; Ong, Christine

2004-01-01

This report details an exploratory study that employs qualitative methods to characterize the academic language used by teachers and students in 4th and 5th grade mainstream science classrooms. Teacher oral language, and to some degree student talk, was observed during content instruction. This type of data allows for a broad descriptive…

Creating a Science E-Book with Fifth Grade Students

ERIC Educational Resources Information Center

Encheff, Dana

2013-01-01

This article explains how one teacher used iBooks Author, a free digital textbook creation tool that makes iBooks for iPads, in an upper elementary classroom to improve students' expository writing skills and understanding of science content. The classroom teacher taught students pre-requisite writing and technology skills for two weeks, and…

Classroom Learning Centers: Animals, Levels E-I. A Supplementary Approach for Teaching Science and Art.

ERIC Educational Resources Information Center

Doughty, Ted G.; Richiger, Georgina M.

This publication includes curriculum materials on animals for grades 4-6. The major purposes of this publication are to foster individualized and interdisciplinary science and art activities within elementary classrooms and to provide pupils and teachers with suggestions to encourage the use of zoos, animal parks, and natural history museums.…

Using sunshine for elementary space science education: A model for IHY scientist teacher partnerships

NASA Astrophysics Data System (ADS)

Moldwin, M. B.; Fiello, D.; Harter, E.; Holman, G.; Nagumo, N.; Pryharski, A.; Takunaga, C.

2008-12-01

An elementary science education professional development partnership between Culver City Unified School District teachers and UCLA has been formed. The project was designed to assist teachers to comfortably present introductory space science concepts, to support them in their efforts, and to aid them in encouraging their students to develop inquiry skills related to space sciences. The project encourages teacher use of observational science techniques in their classrooms, the use of NASA solar mission images and enhanced use of astronomical observation to facilitate discovery learning. The integrated approach of the project has fostered collegial learning activities among the participating teachers and offered them opportunities for continued renewal and professional development of teacher competencies in astronomy and space science. The activities used in the classroom were developed by others, classroom tested, and specifically address National Science Education and California Science Content Standards. These activities have been sustained through on-going collaboration between the scientist and the teachers, a summer Research Experience for Teachers program, and on-going, grade-specific, district-sponsored workshops. Assessment of the value of the program is done by the school district and is used to continuously improve each workshop and program component. Culver City (California) Unified School District is a small urban school district located on the Westside of Los Angeles. This paper describes the program and the plans for incorporating IHY-themed science into the classroom.

Design Experiments in Japanese Elementary Science Education with Computer Support for Collaborative Learning: Hypothesis Testing and Collaborative Construction

ERIC Educational Resources Information Center

Oshima, Jun; Oshima, Ritsuko; Murayama, Isao; Inagaki, Shigenori; Takenaka, Makiko; Nakayama, Hayashi; Yamaguchi, Etsuji

2004-01-01

This paper reports design experiments on two Japanese elementary science lesson units in a sixth-grade classroom supported by computer support for collaborative learning (CSCL) technology as a collaborative reflection tool. We took different approaches in the experiments depending on their instructional goals. In the unit 'air and how things…

Chronicling Innovative Learning in Primary Classrooms: Conceptualizing a Theatrical Pedagogy to Successfully Engage Young Children Learning Science

ERIC Educational Resources Information Center

McGregor, Debra

2014-01-01

This article reports on an innovative pedagogical approach devised to re-envigorate primary (elementary) teachers' practice in the United Kingdom for older children. Learning science in elementary schools for 8-11 year olds (Key Stage 2 in England) has been constrained for several decades while teachers prepared them for national tests. The recent…

A Study of the Cognitive and Affective Performance of Children in the Elementary Science Study Program.

ERIC Educational Resources Information Center

Henson, Stanley

Three studies are reported for children participating in the Elementary Science Study (ESS) program. They are the cognitive and affective performances and the classroom learning environment. Three groups of ESS children were evaluated: nine-year-olds, ten-year-olds, and eleven-year-olds. Each age group contained 30 randomly selected subjects. The…

Scientists in the making: An ethnographic investigation of scientific processes as literate practice in an elementary classroom

NASA Astrophysics Data System (ADS)

Crawford, Teresa Jo

This study explored the issue of literacy in science by examining how the social and academic literate practices in an elementary classroom formed the basis for learning across the curriculum, with a specific focus on the disciplinary field of science. Through the study of classroom interaction, issues related to student knowledge and ability were addressed as they pertain to scientific literacy in the context of science education reform. The theoretical framework guiding this study was drawn from sociocultural studies of scientific communities and interactional ethnography in education. To investigate the literate practices of science in a school setting, data were collected over a two-year period with the same teacher in her third grade and then her fourth/fifth grade classroom. Data were collected through participant observation in the form of fieldnotes, video data, interviews, and various artifacts (e.g., writings, drawings, teaching protocols). Using ethnographic and sociolinguistic methods of analysis this work examined classroom members' discursive practices to illustrate the role that discourse plays in creating opportunities for engagement in, and access to, scientific knowledge. These analyses revealed that the discursive actions and practices among members of this classroom shaped a particular type of learning environment that was process-oriented and inquiry based. It was shown that this learning environment afforded opportunities for students to engage in the processes of science outside the official, planned curriculum, often leading to whole class scientific investigations and discussions. Additionally, within this classroom community students were able to draw on multiple discourses to display their knowledge of scientific concepts and practices. Overall, this study found that the literate practices of this classroom community, as they were socially constructed among members, contributed to opportunities for students to practice science and demonstrate scientific literacy.

The Influence of Informal Science Education Experiences on the Development of Two Beginning Teachers' Science Classroom Teaching Identity

NASA Astrophysics Data System (ADS)

Katz, Phyllis; Randy McGinnis, J.; Riedinger, Kelly; Marbach-Ad, Gili; Dai, Amy

2013-12-01

In case studies of two first-year elementary classroom teachers, we explored the influence of informal science education (ISE) they experienced in their teacher education program. Our theoretical lens was identity development, delimited to classroom science teaching. We used complementary data collection methods and analysis, including interviews, electronic communications, and drawing prompts. We found that our two participants referenced as important the ISE experiences in their development of classroom science identities that included resilience, excitement and engagement in science teaching and learning-qualities that are emphasized in ISE contexts. The data support our conclusion that the ISE experiences proved especially memorable to teacher education interns during the implementation of the No Child Left Behind policy which concentrated on school-tested subjects other than science.

Learning from the best: Overcoming barriers to reforms-based elementary science teaching

NASA Astrophysics Data System (ADS)

Banchi, Heather May

This study explored the characteristics of elementary science teachers who employ reforms-based practices. Particular attention was paid to the consistency of teachers' practices and their beliefs, the impact of professional development experiences on practices, and how teachers mitigated barriers to reforms-based instruction. Understanding how successful elementary science teachers develop fills a gap in the science reforms literature. Participants included 7 upper elementary science teachers from six different schools. All schools were located within two suburban school districts in the south-Atlantic United States and data was collected during the spring of 2008. Data collection included use of the Reformed Teaching Observation Protocol (RTOP) to evaluate the level of reforms-based instruction, as well as 35 hours of classroom observation field notes and 21 hours of audio-taped teacher interviews. The variety of data sources allowed for triangulation of evidence. The RTOP was analyzed using descriptive statistics and classroom observations and interview data were analyzed using Erickson's (1986) guidelines for analytic induction. Findings indicated (a) reforms-based elementary science teaching was attainable, (b) beliefs and practices were consistent and both reflected reforms-based philosophies and practices, (c) formal professional development experiences were limited and did not foster reforms-based practices, (d) informal professional development pursued by teachers had a positive impact on practices, (e) barriers to reforms-based instruction were present but mitigated by strong beliefs and practical strategies like curriculum integration. These findings suggest that there are common, salient characteristics of reforms-based teachers' beliefs, practices, and professional development experiences. These commonalities contribute to an understanding of how reforms-based teachers develop, and inform efforts to move all elementary teachers in the direction of reforms-based science teaching.

An analysis of integrated science and language arts themes in software at the elementary school level

NASA Astrophysics Data System (ADS)

Libidinsky, Lisa Jill

2002-09-01

There are many demands on the elementary classroom teacher today, such that teachers often do not have the time and resources to instruct in a meaningful manner that would produce effective, real instruction. Subjects are often disjointed and not significant. When teachers instruct using an integrated approach, students learn more efficiently as they see connections in the subjects. Science and language arts, when combined to produce an integrated approach, show positive associations that can enable students to learn real-life connections. In addition, with the onset of technology and the increased usage of technological programs in the schools, teachers can use technology to support an integrated curriculum. When teachers use a combined instructional focus of science, language arts, and technology to produce lessons, students are able to gain knowledge of concepts and skills necessary for appropriate academic growth and development. Given that there are many software programs available to teachers for classroom use, it is imperative that quality software is used for instruction. Using criteria based upon an intensive literature review of integrated instruction in the areas of science and language arts, this study examines science and language arts software programs to determine whether there are science and language arts integrated themes in the software analyzed. Also, this study examines whether more science and language arts integrated themes are present in science or language arts software programs. Overall, this study finds a significant difference between language arts software and science software when looking at integrated themes. This study shows that science software shows integrated themes with language arts more often than does language arts software with science. The findings in this study can serve as a reference point for educators when selecting software that is meaningful and effective in the elementary classroom. Based on this study, it is apparent that there is a need to evaluate software for appropriate use in the classroom in order to promote effective education.

The Challenges of Science Inquiry Teaching for Pre-Service Teachers in Elementary Classrooms: Difficulties on and under the Scene

NASA Astrophysics Data System (ADS)

Yoon, Hye-Gyoung; Joung, Yong Jae; Kim, Mijung

2012-06-01

In the context of the emphasis on inquiry teaching in science education, this study looks into how pre-service elementary teachers understand and practise science inquiry teaching during field experience. By examining inquiry lesson preparation, practice, and reflections of pre-service elementary teachers, we attempt to understand the difficulties they encounter and what could result from those difficulties in their practice. A total of 16 seniors (fourth-year students) in an elementary teacher education program participated in this study. In our findings, we highlight three difficulties `on the lesson' that are related to teaching practices that were missing in the classrooms: (1) developing children's own ideas and curiosity, (2) guiding children in designing valid experiments for their hypotheses, (3) scaffolding children's data interpretation and discussion and another three difficulties `under the lesson' that are related to problems with the pre-service teachers' conceptualization of the task: (4) tension between guided and open inquiry, (5) incomplete understanding of hypothesis, and (6) lack of confidence in science content knowledge. Based on these findings, we discuss how these difficulties are complexly related in the pre-service teachers' understandings and action. Several suggestions for science teacher education for inquiry teaching, especially hypothesis-based inquiry teaching, are then explored.

Supporting pre-service elementary teachers in their understanding of inquiry teaching through the construction of a third discursive space

NASA Astrophysics Data System (ADS)

Greca, Ileana M.

2016-03-01

Several international reports promote the use of the inquiry teaching methodology for improvements in science education at elementary school. Nevertheless, research indicates that pre-service elementary teachers have insufficient experience with this methodology and when they try to implement it, the theory they learnt in their university education clashes with the classroom practice they observe, a problem that has also been noted with other innovative methodologies. So, it appears essential for pre-service teachers to conduct supportive reflective practice during their education to integrate theory and practice, which various studies suggest is not usually done. Our study shows how opening up a third discursive space can assist this supportive reflective practice. The third discursive space appears when pre-service teachers are involved in specific activities that allow them to contrast the discourses of theoretical knowledge taught at university with practical knowledge arising from their ideas on science and science teaching and their observations during classroom practice. The case study of three pre-service teachers shows that this strategy was fundamental in helping them to integrate theory and practice, resulting in a better understanding of the inquiry methodology and its application in the classroom.

Opening Pandora's Box: Texas Elementary Campus Administrators use of Educational Policy And Highly Qualified Classroom Teachers Professional Development through Data-informed Decisions for Science Education

NASA Astrophysics Data System (ADS)

Brown, Linda Lou

Federal educational policy, No Child Left Behind Act of 2001, focused attention on America's education with conspicuous results. One aspect, highly qualified classroom teacher and principal (HQ), was taxing since states established individual accountability structures. The HQ impact and use of data-informed decision-making (DIDM) for Texas elementary science education monitoring by campus administrators, Campus Instruction Leader (CILs), provides crucial relationships to 5th grade students' learning and achievement. Forty years research determined improved student results when sustained, supported, and focused professional development (PD) for teachers is available. Using mixed methods research, this study applied quantitative and qualitative analysis from two, electronic, on-line surveys: Texas Elementary, Intermediate or Middle School Teacher Survey(c) and the Texas Elementary Campus Administrator Survey(c) with results from 22.3% Texas school districts representing 487 elementary campuses surveyed. Participants selected in random, stratified sampling of 5th grade teachers who attended local Texas Regional Collaboratives science professional development (PD) programs between 2003-2008. Survey information compared statistically to campus-level average passing rate scores on the 5th grade science TAKS using Statistical Process Software (SPSS). Written comments from both surveys analyzed with Qualitative Survey Research (NVivo) software. Due to the level of uncertainty of variables within a large statewide study, Mauchly's Test of Sphericity statistical test used to validate repeated measures factor ANOVAs. Although few individual results were statistically significant, when jointly analyzed, striking constructs were revealed regarding the impact of HQ policy applications and elementary CILs use of data-informed decisions on improving 5th grade students' achievement and teachers' PD learning science content. Some constructs included the use of data-warehouse programs; teachers' applications of DIDM to modify lessons for differentiated science instruction, the numbers of years' teachers attended science PD, and teachers' influence on CILs staffing decisions. Yet CILs reported 14% of Texas elementary campuses had limited or no science education programs due to federal policy requirement for reading and mathematics. Three hypothesis components were supported and accepted from research data resulted in two models addressing elementary science, science education PD, and CILs impact for federal policy applications.

Hands-On Science Reform, Science Achievement, and the Elusive Goal of "science for All" in a Diverse Elementary School District

NASA Astrophysics Data System (ADS)

Echevarria, Marissa

Given the emphasis on "science for all" in national reform documents, this study analyzed student science achievement scores in hands-on reform versus traditional classrooms for 3,667 students in Grades 3 to 6 by gender, ethnicity, free or reduced lunch status, parent education, and level of English proficiency to determine whether these subgroups performed better or worse in reform classrooms. Teachers in reform classrooms used exemplary hands-on science kits and attended 1-day in-service training per kit. Teachers in traditional classrooms used the regular activity-based science curriculum with textbook. Gender differences favoring boys appeared in both types of classrooms, but were larger in the reform classrooms. Boys from lower socioeconomic levels performed better in reform classrooms, but limited-English-proficient boys performed worse. Parent education was significantly related to higher achievement for boys only in reform classrooms. For girls this relation was significant only in traditional classrooms. White girls performed significantly worse in reform classroom, but there were no differences for Asian and Hispanic girls. Implications for adapting hands-on science reform to meet student needs are discussed.

The Relationship between Classroom Organizational Structure and CRCT Performance in the Elementary School Classroom

ERIC Educational Resources Information Center

McClendon, Thomas K.

2016-01-01

This study examined the relationship between the structural classroom environment (self-contained, team-taught, and departmentalized) and student performance on the 2014 Georgia Criterion-Referenced Competency Test (CRCT) in reading, Language Arts, mathematics, science, and social studies in grades three through five. A secondary purpose examined…

Embedded Formative Assessment and Classroom Process Quality: How Do They Interact in Promoting Science Understanding?

ERIC Educational Resources Information Center

Decristan, Jasmin; Klieme, Eckhard; Kunter, Mareike; Hochweber, Jan; Büttner, Gerhard; Fauth, Benjamin; Hondrich, A. Lena; Rieser, Svenja; Hertel, Silke; Hardy, Ilonca

2015-01-01

In this study we examine the interplay between curriculum-embedded formative assessment--a well-known teaching practice--and general features of classroom process quality (i.e., cognitive activation, supportive climate, classroom management) and their combined effect on elementary school students' understanding of the scientific concepts of…

Opportunities for Inquiry Science in Montessori Classrooms: Learning from a Culture of Interest, Communication, and Explanation

NASA Astrophysics Data System (ADS)

Rinke, Carol R.; Gimbel, Steven J.; Haskell, Sophie

2013-08-01

Although classroom inquiry is the primary pedagogy of science education, it has often been difficult to implement within conventional classroom cultures. This study turned to the alternatively structured Montessori learning environment to better understand the ways in which it fosters the essential elements of classroom inquiry, as defined by prominent policy documents. Specifically, we examined the opportunities present in Montessori classrooms for students to develop an interest in the natural world, generate explanations in science, and communicate about science. Using ethnographic research methods in four Montessori classrooms at the primary and elementary levels, this research captured a range of scientific learning opportunities. The study found that the Montessori learning environment provided opportunities for students to develop enduring interests in scientific topics and communicate about science in various ways. The data also indicated that explanation was largely teacher-driven in the Montessori classroom culture. This study offers lessons for both conventional and Montessori classrooms and suggests further research that bridges educational contexts.

A Case for Culturally Relevant Teaching in Science Education and Lessons Learned for Teacher Education

ERIC Educational Resources Information Center

Mensah, Felicia Moore

2011-01-01

In this article, the researcher discusses three elementary pre-service teachers' experiences in co-planning and co-teaching a Pollution Unit in a 4th-5th grade science classroom in New York City. The study makes use of microteaching papers, lesson plans, researcher classroom observations, interviews, and informal conversations to elicit lessons…

Using Cogenerative Dialogues to Improve Coteaching for Language Learner (LL) Students in an Inclusion Science Classroom

ERIC Educational Resources Information Center

Im, Sungmin; Martin, Sonya N.

2015-01-01

This paper presents findings from a study conducted in an urban elementary school in the United States with an English language learner (ELL) student and two teachers engaged in collaborative teaching in an inclusion science classroom. This study examines the efficacy of utilising cogenerative dialogues between an ELL student and his science…

Two Fifth Grade Teachers' Use of Real-World Situations in Science and Mathematics Lessons

ERIC Educational Resources Information Center

Yanik, H. Bahadir; Serin, Gokhan

2016-01-01

The purpose of this study was to investigate the types, sources, and cognitive levels of tasks that included real-life situations used in science and mathematics lessons in the classrooms of two 5th-grade teachers at an urban elementary school in Turkey. A qualitative approach was used to analyze data that included classroom observations, teacher…

Measuring Opportunity to Learn and Academic Language Exposure for English Language Learners in Elementary Science Classrooms. CRESST Report 767

ERIC Educational Resources Information Center

Martinez, Jose Felipe; Bailey, Alison L.; Kerr, Deirdre; Huang, Becky H.; Beauregard, Stacey

2010-01-01

The present study piloted a survey-based measure of Opportunity to Learn (OTL) and Academic Language Exposure (ALE) in fourth grade science classrooms that sought to distinguish teacher practices with ELL (English language learner) and non-ELL students. In the survey, participant teachers reported on their instructional practices and the context…

A Multi-Year Study of the Impact of the Rice Model Teacher Professional Development on Elementary Science Teachers

NASA Astrophysics Data System (ADS)

Viorica Diaconu, Dana; Radigan, Judy; Suskavcevic, Milijana; Nichol, Carolyn

2012-04-01

A teacher professional development program for in-service elementary school science teachers, the Rice Elementary Model Science Lab (REMSL), was developed for urban school districts serving predominately high-poverty, high-minority students. Teachers with diverse skills and science capacities came together in Professional Learning Communities, one full day each week throughout an academic year, to create a classroom culture for science instruction. Approximately 80 teachers each year received professional development in science content and pedagogy using the same inquiry-based constructivist methods that the teachers were expected to use in their classrooms. During this four-year study, scientists and educators worked with elementary teachers in a year-long model science lab environment to provide science content and science pedagogy. The effectiveness of the program was measured using a mix of quantitative and qualitative methods that allowed the researchers to triangulate the findings from quantitative measures, such as content test and surveys, with the emerging themes from the qualitative instruments, such as class observations and participant interviews. Results showed that, in all four years, teachers from the REMSL Treatment group have significantly increased their science content knowledge (p < 0.05). During the last two years, their gains in science content knowledge, use of inquiry-based instruction and leadership skills were significantly higher than those of the Control group teachers' (p < 0.01, p < 0.001 and p < 0.05, respectively). Three themes resonated in the interviews with participants: science content knowledge growth, constructivist pedagogy and leadership skills.

The Potential Impacts of Upcoming High-Stakes Testing on the Teaching of Science in Elementary Classrooms

NASA Astrophysics Data System (ADS)

Pringle, Rose M.; Martin, Sarah Carrier

2005-09-01

In 1983, the National Commission on Excellence in Education in the United States issued a report called A Nation at Risk: The Imperative for Educational Reform. This report and other policy initiatives such as the No Child Left Behind Legislation recommended that the individual states institute assessments to hold schools accountable. This research explored the potential impact of impending standardised testing on teaching science in elementary schools in one school district in Florida. We explored the teachers' concerns about the upcoming high-stakes tests in science, possible impact on their curriculum and what changes, if any, will be made in the approach to science teaching and learning in their classrooms. As the teachers look toward the implementation of high-stakes testing in science, they have recognised the need to teach science. This recognition is not borne out of the importance of science learning for elementary school children, but rather out of fear of failure and the effects of tangible rewards or punishments that accompany high-stakes testing. In anticipation, the teachers are preparing to align their teaching to the science standards while aggressively searching for test preparatory materials. Schools are also involved in professional development and structural changes to facilitate teaching of science.

Collaboration in teacher workshops and citizen science

NASA Astrophysics Data System (ADS)

Gibbs, M. G.; Buxner, S.; Gay, P.; Crown, D. A.; Bracey, G.; Gugliucci, N.; Costello, K.; Reilly, E.

2013-12-01

The Moon and Earth system is an important topic for elementary and middle school science classrooms. Elementary and middle school teachers are challenged to keep current in science. The Planetary Science Institute created a program titled Workshops in Science Education and Resources (WISER): Planetary Perspectives to assist in-service K-12 teachers with their knowledge in earth and space science, using up-to-date science and inquiry activities to assist them in engaging their students. To augment the science and add a new aspect for teacher professional development, PSI is working in a new partnership collaborating with the Cosmoquest project in engaging teachers in authentic inquiry of the Moon. Teachers now learn about the Moon from PSI scientists and education staff and then engage in inquiry of the Moon using CosmoQuest's online citizen science project MoonMappers and its accompanying classroom curriculum TerraLuna. Through MoonMappers, teachers and students explore the lunar surface by viewing high-resolution pictures from the Lunar Reconnaissance Orbiter and marking craters and other interesting features. In addition, TerraLuna provides a unit of inquiry-based activities that bring MoonMappers and its science content into the classroom. This program addresses standards teachers need to teach and helps them not only teach about the Moon but also engage their students in authentic inquiry of the lunar surface.

Science Is What Scientists Do.

ERIC Educational Resources Information Center

Shaw, Jean M.; Cliatt, Mary Jo Puckett

1981-01-01

Describes four activities for the elementary science classroom to help students develop their powers of description, explanation, and prediction. Topics of the activities are spool "gears," crystal comparisons, yeast magic, and clay cargo carriers. (DS)

Self Reflections of Undergraduate Students on Using Web-Supported Counterintuitive Science Demonstrations

NASA Astrophysics Data System (ADS)

Kumar, David Devraj; Dunn, Jessica

2018-03-01

Analysis of self-reflections of undergraduate education students in a project involving web-supported counterintuitive science demonstrations is reported in this paper. Participating students (N = 19) taught science with counterintuitive demonstrations in local elementary school classrooms and used web-based resources accessed via wireless USB adapters. Student reflections to seven questions were analyzed qualitatively using four components of reflection (meeting objectives/perception of learning, dynamics of pedagogy, special needs accommodations, improving teaching) deriving 27 initial data categories and 12 emergent themes. Overall the undergraduates reported meeting objectives, engaging students in pedagogically relevant learning tasks including, providing accommodations to students with special needs, and gaining practice and insight to improve their own teaching. Additional research is needed to arrive at generalizable findings concerning teaching with web-supported counterintuitive science demonstrations in elementary classrooms.

Space Exploration

NASA Technical Reports Server (NTRS)

Davis, Jeffrey R.

2006-01-01

This abstract covers a one hour presentation on Space Exploration. The audience is elementary students; therefore there are few words on the slides, mostly pictures of living and working in space. The presentation opens with a few slides describing a day in the life of a space explorer. It begins with a launch, discussions of day-night cycles, eating, exercising, housekeeping, EVA, relaxation, and sleeping. The next section of the presentation shows photos of astronauts performing experiments on the ISS. Yokomi Elementary School launched this fall with the most advanced educational technology tools available in schools today. The science and technology magnet school is equipped with interactive white boards, digital projectors, integrated sound systems and several computers for use by teachers and students. The only elementary school in Fresno Unified with a science focus also houses dedicated science classrooms equipped specifically for elementary students to experience hands-on science instruction in addition to the regular elementary curriculum.

Sustainability Education in Elementary Classrooms: Reported Practices of Alumni from a Pre-Service Teacher Course

ERIC Educational Resources Information Center

Merritt, Eileen G.; Archambault, Leanna; Hale, Annie E.

2018-01-01

The article reflects results from a web-based survey of early career teachers who had taken a required, hybrid course focused on sustainability science. Many alumni reported early efforts to integrate sustainability topics and ways of thinking into their K-8 classrooms. Teachers reported modeling of classroom behaviors that promoted sustainability…

Integrating STEM in Elementary Classrooms Using Model-Eliciting Activities: Responsive Professional Development for Mathematics Coaches and Teachers

ERIC Educational Resources Information Center

Baker, Courtney K.; Galanti, Terrie M.

2017-01-01

Background: This research highlights a school-university collaboration to pilot a professional development framework for integrating STEM in K-6 mathematics classrooms in a mid-Atlantic suburban school division. Because mathematics within STEM integration is often characterized as the calculations or the data representations in science classrooms,…

Are There Toxic Plants in Your Classroom? A Resource for Teachers of Children with Exceptional Needs

ERIC Educational Resources Information Center

Edens, Retha M.; Murdick, Nikki L.

2008-01-01

In elementary and secondary classrooms, educators use plants for various reasons. Plants are often used during learning activities and science experiments. Also, educators frequently decorate their classrooms with plants to make the room more inviting and comfortable. Few new educators have been informed of the potential hazards of commonly known…

ScienceFEST: Preservice Teachers link Math and Science in Astronomy Lessons

NASA Astrophysics Data System (ADS)

DeMuth, N. H.; Kasabian, J.

2005-05-01

Funded by the National Science Foundation, Science FEST (Science for Future Elementary School Teachers) aims to develop the science content and pedagogy for project participants by connecting their college coursework to the science they will eventually teach. Working individually and in pairs, future elementary and middle school teachers design a comprehensive module in astronomy that is inquiry-based and reflects the national and state science standards. Project participants then teach their modules in local elementary or middle school classrooms. Science FEST project participants report gaining a deep understanding of the science they are teaching, learning to engage all students to explore science concepts, and reflecting on their teaching and how it can be improved. The session presenters will share some of the instructional materials developed by the college students and how their experiences in Science FEST have enhanced their pre-professional development. The project's website can be found at www.science-fest.org.

Influence of teacher-directed scientific inquiry on students' primal inquiries in two science classrooms

NASA Astrophysics Data System (ADS)

Stone, Brian Andrew

Scientific inquiry is widely used but pervasively misunderstood in elementary classrooms. The use of inquiry is often attached to direct instruction models of teaching, or is even passed as textbook readings or worksheets. Previous literature on scientific inquiry suggests a range or continuum beginning with teacher-directed inquiry on one extreme, which involves a question, process, and outcome that are predetermined by the teacher. On the other end of the continuum is an element of inquiry that is extremely personal and derived from innate curiosity without external constraints. This authentic inquiry is defined by the study as primal inquiry. If inquiry instruction is used in the elementary classroom, it is often manifested as teacher-directed inquiry, but previous research suggests the most interesting, motivating, and lasting content is owned by the individual and exists within the individual's own curiosity, questioning and processes. Therefore, the study examined the impact of teacher-directed inquiry in two elementary fourth grade classrooms on climate-related factors including interest, motivation, engagement, and student-generated inquiry involvement. The study took place at two elementary classrooms in Arizona. Both were observed for ten weeks during science instruction over the course of one semester. Field notes were written with regard for the inquiry process and ownership, along with climate indicators. Student journals were examined for evidence of primal inquiry, and twenty-two students were interviewed between the two classrooms for evidence of low climate-related factors and low inquiry involvement. Data from the three sources were triangulated. The results of this qualitative study include evidence for three propositions, which were derived from previous literature. Strong evidence was provided in support of all three propositions, which suggest an overall negative impact on climate-related factors of interest, motivation, and engagement for students working within a teacher-directed scientific inquiry environment. Very little existed in terms of time, materials, or opportunities for students to explore science using their own questions and processes. Furthermore, as students conformed to a teacher-directed inquiry environment, their own primal inquiries were displaced and undervalued. Ownership belonged to the teacher and precluded primal inquiries in both classrooms.

Using Science and the Internet as Everyday Classroom Tools

NASA Technical Reports Server (NTRS)

Mandel, Eric

1999-01-01

The Everyday Classroom Tools project developed a K-6 inquiry-based curriculum to bring the tools of scientific inquiry, together with the Internet, into the elementary school classroom. Our curriculum encourages students and teachers to experience the adventure of science through investigation of the world around us. In this project, experts in computer science and astronomy at SAO worked closely with teachers and students in Massachusetts elementary schools to design and model activities which are developmentally appropriate, fulfill the needs of the curriculum standards of the school district, and provide students with a chance to experience for themselves the joy and excitement of scientific inquiry. The results of our efforts are embodied in the Threads of Inquiry, a series of free-flowing dialogues about inquiry-inspiring investigations that maintain a solid connection with our experience and with one another. These investigations are concerned with topics such as the motion of the Earth, shadows, light, and time. Our work emphasizes a direct hands-on approach through concrete experience, rather than memorization of facts.

Analogies as Tools for Meaning Making in Elementary Science Education: How Do They Work in Classroom Settings?

ERIC Educational Resources Information Center

Guerra-Ramos, Maria Teresa

2011-01-01

In this paper there is a critical overview of the role of analogies as tools for meaning making in science education, their advantages and disadvantages. Two empirical studies on the use of analogies in primary classrooms are discussed and analysed. In the first study, the "string circuit" analogy was used in the teaching of electric circuits with…

A Comparison of Approaches to the Teaching and Learning of Science in Chinese and Australian Elementary Classrooms: Cultural and Socioeconomic Complexities

ERIC Educational Resources Information Center

Tao, Ying; Oliver, Mary; Venville, Grady

2013-01-01

Set in the context of today's globalized approaches to curriculum reform, the purpose of this study was to compare the teaching and learning of science in Chinese and Australian Grade 6 classrooms. A conceptual framework based on notions of culture and socioeconomic status informed the research design. Case study participants were three teachers…

Recommendations to Support Computational Thinking in the Elementary Classroom

ERIC Educational Resources Information Center

Estapa, Anne; Hutchison, Amy; Nadolny, Larysa

2018-01-01

Computational thinking is an important and necessary way of thinking for computer programmers and other professionals in science, technology, engineering, and mathematics (STEM). Research on emerging practices around computational thinking that is developed through coding initiatives in schools reports that elementary children typically learn how…

It's 1984 and Robots Are in the Classroom.

ERIC Educational Resources Information Center

Howe, Samuel F.

1984-01-01

Describes the features of TOPO, HERO, RB5X, and Tasman Turtle, personal robots used in elementary and secondary schools and colleges to introduce concepts of artificial intelligence, advanced high school and college computer science, and elementary level programming. Mechanical arms are also briefly mentioned. (MBR)

A Correlative Study of CD-ROM Picture Books in Classrooms and School Children's Formation of Descriptive Concepts

ERIC Educational Resources Information Center

Lu, Chow-Chin; Chen, Yueh-Yun; Chen, Chen-Wei

2011-01-01

The central focus of this study was the development, use and evaluation of CD-ROM picture books in elementary school science teaching. Three CD-ROM picture books based on the Campus Insects unit from the new elementary school science curriculum in Taiwan were developed. A quasi-experimental method was used to compare the use of the CD-ROMs and…

Changes in Elementary Student Perceptions of Science, Scientists and Science Careers after Participating in a Curricular Module on Health and Veterinary Science

PubMed Central

Shin, Soo Yeon; Parker, Loran Carleton; Adedokun, Omolola; Mennonno, Ann; Wackerly, Amy; SanMiguel, Sandra

2015-01-01

This study examined to what extent a curriculum module that uses animal and human health scientists and science concepts to portray science and scientists in a relevant and authentic manner could enhance elementary students’ aspiration for science careers, attitudes to science, positive perceptions of scientists, and perceived relevance of science. The curriculum was developed by a research-based university program and has been put into practice in two early elementary classrooms in an urban school in the Midwest. An attitudinal rating survey and the Draw-A-Scientist Test (DAST) were used to assess pre to post changes in student attitudes toward science, perceptions of scientists, perceived relevance of science, and aspiration for science careers. Findings indicated that the implementation of this curriculum contributed positively to student attitudes toward science, decreased students’ stereotypical images of scientists, and increased student aspirations to become a scientist. PMID:26726271

Gifted and Talented Students' Perceptions on Their Schooling: A Survey Study

ERIC Educational Resources Information Center

Kahveci, Nihat Gürel; Akgül, Savas

2014-01-01

This study provides elementary gifted and talented students: Social Studies, Math, Turkish, Science, and Foreign Language courses in terms of differentiation, challenging activities and classroom climate. Research studies contend the significance of differentiation, challenging curriculum and instruction, suitable classroom climate to provide…

Emotions and elementary school science teaching: Postmodernism in practice

NASA Astrophysics Data System (ADS)

Zembylas, Michalinos

This is an ethnographic study about an elementary school teacher's emotions in her science teaching and pedagogy. This study is an interdisciplinary account of emotions in teaching and draws both methodologically and theoretically from a variety of disciplines: philosophy, sociology, psychology, anthropology, cultural studies and feminist studies. The account developed here is based on my understanding of the role of one teacher's (Catherine) emotions in her classroom life for three years. I describe my approach in terms of what I call emotional genealogies of teaching; referring to an account of the events, objects, persons and their relationships that are present or absent in the realization of emotions, and the ways that these emotions are experienced in relation to the self (individual reality), the others (social interactions) and the world in general (sociopolitical context). Applied to my study, an emotional genealogy of Catherine's science teaching seeks not to trace the gradual evolution of her emotions but to record the singularity of various events that make some emotions present and others absent. My study shows how certain emotions are constructed in the science classroom and how they are transformed over the years (as mediated by values, philosophies, beliefs and so on). Catherine's emotions in science teaching is a "history of the present," a history of her emotions' "presences and absences" in her daffy interactions with her students, parents and administrators in the context of the science classroom. This work raises important questions that go beyond the meaning and interpretation of teachers' emotions: How can teachers' emotions become a legitimate topic in (science) education as well as in efforts for science curricular reform? Further, how can educational institutions (universities and schools) and elementary school science teachers themselves support their personal and professional emotional growth?

My Science Tutor: A Conversational Multimedia Virtual Tutor

ERIC Educational Resources Information Center

Ward, Wayne; Cole, Ron; Bolaños, Daniel; Buchenroth-Martin, Cindy; Svirsky, Edward; Weston, Tim

2013-01-01

My Science Tutor (MyST) is an intelligent tutoring system designed to improve science learning by elementary school students through conversational dialogs with a virtual science tutor in an interactive multimedia environment. Marni, a lifelike 3-D character, engages individual students in spoken dialogs following classroom investigations using…

Project LEO Studies of Science Learning Environments and Outcomes, 1968-1981.

ERIC Educational Resources Information Center

Matthews, Charles; And Others

Presented is a summary of the 1977-80 Project LEO studies, which focused on science teaching strategies and learning outcomes for disruptive elementary school children and on more refined application of the "student-structured learning in science" (SSLS) teacher behavioral pattern in secondary school science classrooms. Included within…

Leveraging Current Initiatives to Bring Earth and Space Science into Elementary and Early Childhood Classrooms: NGSS in the Context of the Classroom Technology Push

NASA Astrophysics Data System (ADS)

Pacheco-Guffrey, H. A.

2016-12-01

Classroom teachers face many challenges today such as new standards, the moving targets of high stakes tests and teacher evaluations, inconsistent/insufficient access to resources and evolving education policies. Science education in the K-5 context is even more complex. NGSS can be intimidating, especially to K-5 educators with little science background. High stakes science tests are slow to catch up with newly drafted state level science standards, leaving teachers unsure about what to change and when to implement updated standards. Amid all this change, many schools are also piloting new technology programs. Though exciting, tech initiatives can also be overwhelming to teachers who are already overburdened. A practical way to support teachers in science while remaining mindful of these stressors is to design and share resources that leverage other K-5 school initiatives. This is often done by integrating writing or math into science learning to meet Common Core requirements. This presentation will suggest a method for bringing Earth and space science learning into elementary / early childhood classrooms by utilizing the current push for tablet technology. The goal is to make science integration reasonable by linking it to technology programs that are in their early stages. The roles and uses of K-5 Earth and space science apps will be examined in this presentation. These apps will be linked to NGSS standards as well as to the science and engineering practices. To complement the app resources, two support frameworks will also be shared. They are designed to help educators consider new technologies in the context of their own classrooms and lessons. The SAMR Model (Puentadura, 2012) is a conceptual framework that helps teachers think critically about the means and purposes of integrating technology into existing lessons. A practical framework created by the author will also be shared. It is designed to help teachers identify and address the important logistical and curricular decision-making aspects of integrating technology into K-5 classroom science. This method provides clear applications for new technology while also bringing meaningful Earth and space science learning into K-5 classrooms.

Iteration in Early-Elementary Engineering Design

ERIC Educational Resources Information Center

McFarland Kendall, Amber Leigh

2017-01-01

K-12 standards and curricula are beginning to include engineering design as a key practice within Science Technology Engineering and Mathematics (STEM) education. However, there is little research on how the youngest students engage in engineering design within the elementary classroom. This dissertation focuses on iteration as an essential aspect…

Preservice Teachers Developing Coherent Inquiry Investigations in Elementary Astronomy

ERIC Educational Resources Information Center

Plummer, Julia D.; Tanis Ozcelik, Arzu

2015-01-01

For students to attain deep understanding of scientific practices, they will need to have opportunities to participate in sustained engagement in doing science. Such opportunities begin with elementary teachers implementing coherent and well-sequenced inquiry-based investigations in their classrooms. This study explored how preservice teachers (N…

Teacher's Guide for Optics. Elementary Science Study.

ERIC Educational Resources Information Center

Lange, Robert V.; And Others

This teacher's guide suggests activities that provide opportunities for upper elementary students to explore, by direct experiment, many of the properties of light. Equipment is listed and construction of a light source is detailed. Instructions are given for setting up a classroom with electrical equipment. Activities are described in units…

TEACHER'S GUIDE FOR MICROGARDENING.

ERIC Educational Resources Information Center

CHANDLER, MARION N.

THIS TEACHING GUIDE IS DESIGNED FOR USE WITH AN ELEMENTARY SCIENCE STUDY UNIT "MICROGARDENING" IN WHICH SIMPLER AND LOWER FORMS OF PLANT LIFE ARE STUDIED THROUGH STUDENT ACTIVITIES INVOLVING MOLDS. THE MATERIALS HAVE BEEN CLASSROOM TESTED AND ARE SUGGESTED FOR MIDDLE AND UPPER ELEMENTARY GRADES. THE WORK HAS BEEN ORGANIZED IN FIVE AREAS…

Science Teacher Self-Efficacy and Student Achievement: A Quantitative Correlational Study

ERIC Educational Resources Information Center

Thompson, Benika J.

2015-01-01

A teacher's sense of self-efficacy may have significant influence on the pedagogical decisions in the classroom. An elementary school teacher's sense of self-efficacy in teaching science may negatively influence student achievement in science. Negative beliefs concerning science or the ability to teach and promote student learning in science may…

Reliving Colonial Days in Your Classroom. Curriculum Boosters. Social Studies.

ERIC Educational Resources Information Center

Hennessey, Gail Skroback

1994-01-01

The article presents hands-on classroom projects to teach elementary students about colonial American history. Students make their own natural dyes, cook blueberry slump, and play cup-and-ball the way the colonists did. The activities integrate science, math, history, art, and language arts. (SM)

Do you have any material that I could use in the classroom (elementary school/middle school/high school/college level)?

Atmospheric Science Data Center

2015-10-28

Please visit the Science Directorate Educational Resources page for information on videos, classroom projects, and activities that are available for all grade levels. Trading cards, bookmarks, and lesson plans can also be downloaded from...

The Effects of Departmentalized and Self-Contained Classrooms on Fifth-Grade Students' Achievement in Science on the Georgia Criterion Referenced Competency Test

ERIC Educational Resources Information Center

Koch, Lisa S.

2013-01-01

Elementary instruction of fifth grade classrooms was found to be primarily in two organizational models in a school district northwest of Atlanta, Georgia. The self-contained classroom provided a generalist teacher responsible for the instruction of all academic subjects to one group of students throughout the day, while departmentalized…

An Analysis of Argumentation Discourse Patterns in Elementary Teachers' Science Classroom Discussions

NASA Astrophysics Data System (ADS)

Kim, Sungho; Hand, Brian

2015-04-01

This multiple case study investigated how six elementary teachers' argumentation discourse patterns related to students' discussions in the science classroom. Four categories of classroom characteristics emerged through the analysis of the teachers' transcripts and recorded class periods: Structure of teacher and student argumentation, directionality, movement, and structure of student talk. Results showed that the differences between the teachers' discourse patterns were related to their modified reformed teaching observation protocol (RTOP) scores and to how the interaction of those differences affected student learning. Teachers with high RTOP scores were more likely to challenge their students' claims, explanations, and defenses and to provide less guidance and more waiting time for their students' responses than teachers with medium- and low-level RTOP scores. Students in the high-level teachers' classes challenged, defended, rejected, and supported each other's ideas with evidence and required less guidance than students in the medium-level and low-level teachers' classes.

A Case Study Exploring the Identity of an In-Service Elementary Science Teacher: a Language Teacher First

NASA Astrophysics Data System (ADS)

Marco-Bujosa, Lisa; Levy, Abigail Jurist; McNeill, Katherine

2018-01-01

Teachers are central to providing high-quality science learning experiences called for in recent reform efforts, as their understanding of science impacts both what they teach and how they teach it. Yet, most elementary teachers do not enter the profession with a particular interest in science or expertise in science teaching. Research also indicates elementary schools present unique barriers that may inhibit science teaching. This case study utilizes the framework of identity to explore how one elementary classroom teacher's understandings of herself as a science specialist were shaped by the bilingual elementary school context as she planned for and provided reform-based science instruction. Utilizing Gee's (2000) sociocultural framework, identity was defined as consisting of four interrelated dimensions that served as analytic frames for examining how this teacher understood her new role through social positioning within her school. Findings describe the ways in which this teacher's identity as a science teacher was influenced by the school context. The case study reveals two important implications for teacher identity. First, collaboration for science teaching is essential for elementary teachers to change their practice. It can be challenging for teachers to form an identity as a science teacher in isolation. In addition, elementary teachers new to science teaching negotiate their emerging science practice with their prior experiences and the school context. For example, in the context of a bilingual school, this teacher adapted the reform-based science curriculum to better meet the unique linguistic needs of her students.

'Sometimes They Are Fun and Sometimes They Are Not': Concept Mapping with English Language Acquisition (ELA) and Gifted/Talented (GT) Elementary Students Learning Science and Sustainability

ERIC Educational Resources Information Center

Marzetta, Katrina; Mason, Hillary; Wee, Bryan

2018-01-01

This study presents an 'education for sustainability' curricular model which promotes science learning in an elementary classroom through equity pedagogy. A total of 25 fourth-grade students from an urban, public school in Denver, Colorado participated in this mixed-methods study where concept maps were used as a tool for describing and assessing…

A narrative study of novice elementary teachers' perceptions of science instruction

NASA Astrophysics Data System (ADS)

Harrell, Roberta

It is hoped that, once implemented, the Next Generation Science Standards (NGSS) will engage students more deeply in science learning and build science knowledge sequentially beginning in Kindergarten (NRC, 2013). Early instruction is encouraged but must be delivered by qualified elementary teachers who have both the science content knowledge and the necessary instructional skills to teach science effectively to young children (Ejiwale, 2012, Spencer, Vogel, 2009, Walker, 2011). The purpose of this research study is to gain insight into novice elementary teachers' perceptions of science instruction. This research suggests that infusion of constructivist teaching in the elementary classroom is beneficial to the teacher's instruction of science concepts to elementary students. Constructivism is theory that learning is centered on the learner constructing new ideas or concepts built upon their current/past knowledge (Bruner, 1966). Based on this theory, it is recommended that the instructor should try to encourage students to discover principles independently; essentially the instructor presents the problem and lets students go (Good & Brophy, 2004). Discovery learning, hands-on, experimental, collaborative, and project-based learning are all approaches that use constructivist principles. The NGSS are based on constructivist principles. This narrative study provides insight into novice elementary teachers' perceptions of science instruction considered through the lens of Constructivist Theory (Bruner, 1960).

Teaching through Trade Books: Becoming a Citizen Scientist

ERIC Educational Resources Information Center

Royce, Christine Anne

2017-01-01

Engaging students in elementary science is often done within the confines of the classroom. Citizen science projects, however, bring students, families, teachers, and communities together to help scientists with their research. Students become active participants in real research, use their three-dimensional understanding of science, and…

Re-designing an Earth Sciences outreach program for Rhode Island public elementary schools to address new curricular standards and logistical realities in the community

NASA Astrophysics Data System (ADS)

Richter, N.; Vachula, R. S.; Pascuzzo, A.; Prilipko Huber, O.

2017-12-01

In contrast to middle and high school students, elementary school students in Rhode Island (RI) have no access to dedicated science teachers, resulting in uneven quality and scope of science teaching across the state. In an attempt to improve science education in local public elementary schools, the Department of Earth, Environmental, and Planetary Sciences (DEEPS) at Brown University initiated a student-driven science-teaching program that was supported by a NSF K-12 grant from 2007 to 2014. The program led to the development of an extensive in-house lesson plan database and supported student-led outreach and teaching in several elementary and middle school classrooms. After funding was terminated, the program continued on a volunteer basis, providing year-round science teaching for several second-grade classrooms. During the 2016-2017 academic year, New Generation Science Standards (NGSS) were introduced in RI public schools, and it became apparent that our outreach efforts required adaptation to be more efficient and relevant for both elementary school students and teachers. To meet these new needs, DEEPS, in collaboration with the Providence Public School District, created an intensive summer re-design program involving both graduate and undergraduate students. Three multi-lesson units were developed in collaboration with volunteer public school teachers to specifically address NGSS goals for earth science teaching in 2nd, 3rd and 4th grades. In the 2017-2018 academic year DEEPS students will co-teach the science lessons with the public school teachers in two local elementary schools. At the end of the next academic year all lesson plans and activities will be made publically available through a newly designed DEEPS outreach website. We herein detail our efforts to create and implement new educational modules with the goals of: (1) empowering teachers to instruct science, (2) engaging students and fostering lasting STEM interest and competency, (3) optimizing volunteer resources, (4) meeting new state curricular standards, (5) developing publicly available lesson plans for other teachers and outreach programs, (6) institutionalizing the outreach program within the DEEPS community, and (7) cultivating STEM retention at the grassroots level.

Taking an active stance: How urban elementary students connect sociocultural experiences in learning science

NASA Astrophysics Data System (ADS)

Upadhyay, Bhaskar; Maruyama, Geoffrey; Albrecht, Nancy

2017-12-01

In this interpretive case study, we draw from sociocultural theory of learning and culturally relevant pedagogy to understand how urban students from nondominant groups leverage their sociocultural experiences. These experiences allow them to gain an empowering voice in influencing science content and activities and to work towards self-determining the sciences that are personally meaningful. Furthermore, tying sociocultural experiences with science learning helps generate sociopolitical awareness among students. We collected interview and observation data in an urban elementary classroom over one academic year to understand the value of urban students' sociocultural experiences in learning science and choosing science activities.

Construction of teacher knowledge in context: Preparing elementary teachers to teach mathematics and science

NASA Astrophysics Data System (ADS)

Lowery, Maye Norene Vail

1998-12-01

The purposes of this study were to further the understanding of how preservice teacher construct teacher knowledge and pedagogical content knowledge of elementary mathematics and science and to determine the extent of that knowledge in a school-based setting. Preservice teachers, university instructors, inservice teachers, and other school personnel were involved in this context-specific study. Evidence of the preservice teachers' knowledge construction (its acquisition, its dimensions, and the social context) was collected through the use of a qualitative methodology. Collected data included individual and group interviews, course documents, artifacts, and preservice teaching portfolios. Innovative aspects of this integrated mathematics and science elementary methods course included standards-based instruction with immediate access to field experiences. Grade-level teams of preservice and inservice teachers planned and implemented lessons in mathematics and science for elementary students. An on-site, portable classroom building served as a mathematics and science teaching and learning laboratory. A four-stage analysis was performed, revealing significant patterns of learning. An ecosystem of learning within a constructivist learning environment was identified to contain three systems: the university system; the school system; and the cohort of learners system. A mega system for the construction of teacher knowledge was revealed in the final analysis. Learning venues were discovered to be the conduits of learning in a situated learning context. Analysis and synthesis of data revealed an extensive acquisition of teacher knowledge and pedagogical content knowledge through identified learning components. Patience, flexibility, and communication were identified as necessities for successful teaching. Learning components included: collaboration with inservice teachers; implementation of discovery learning and hands-on/minds-on learning; small groupwork; lesson planning; classroom management; and application of standards-based instruction. Prolonged, extensive classroom involvement provided familiarity with the ability levels of elementary students. Gains in positive attitudes and confidence in teaching mathematics and science were identified as direct results of this experience. This may be attributed to the immersion in the school-based setting (hands-on) and the standards-based approach (minds-on) methods course. The results are written in case study form using thick description with an emphasis on preservice teachers.

Discovering "Space" in the Elementary Classroom

ERIC Educational Resources Information Center

Weckbacher, Lisa Marie; Okamoto, Yukari

2015-01-01

Recent studies have shown that strengths in spatial skills are a key to success in STEM (science, technology, engineering, and mathematics) careers. However, these skills are undervalued in our educational system and thus seldom incorporated in classroom teaching. As a first step towards changing the current practices, we worked with a group of…

Giving Students the Power to Engage with Learning

ERIC Educational Resources Information Center

Cochran, Kathryn F.; Reinsvold, Lori A.; Hess, Chelsie A.

2017-01-01

This critical discourse analysis study identifies and describes power relationships in elementary classrooms that support science engagement by providing students time to think, ask questions, and find their voices to talk about subject matter. The first analyses involved identification and description of classroom episodes showing high levels of…

Walking the Integration Talk: An ArtSci Project

ERIC Educational Resources Information Center

Steele, Astrid; Ashworth, Elizabeth L.

2013-01-01

As teacher educators, we help prepare elementary generalist teacher-candidates (TCs) for traditional classrooms. In those classrooms, subjects are often taught in isolation rather than as integrated concepts and this practice is reflected in the program at the university where we teach art and science education. Because the world is…

For the Classroom--The Five Signs of Death: Cold Water Camouflage.

ERIC Educational Resources Information Center

Lin, Leslie

1981-01-01

Outlines a classroom science activity suitable for elementary through adult levels demonstrating that coldwater submergence may cause some people to appear dead when they are not. Includes a description of several activities which exhibit the signs of coldwater camouflage, materials needed, and discussion topics. (DS)

Safety First: Feather, Feet, and Fin Safety in the Classroom

ERIC Educational Resources Information Center

Roy, Ken

2014-01-01

Pet birds, fish, reptiles, and mammals--all are often found in elementary classrooms because of the wide variety of opportunities they provide for exciting teaching and learning experiences. Applications of the opportunities these organisms can provide is reflected in the "NGSS" Life Science progression of disciplinary core ideas,…

An analysis of K--5 teachers' beliefs regarding the uses of direct instruction, the discovery method, and the inquiry method in elementary science education

NASA Astrophysics Data System (ADS)

Kowalczyk, Donna Lee

The purpose of this study was to examine K--5 elementary teachers' reported beliefs about the use, function, and importance of Direct Instruction, the Discovery Method, and the Inquiry Method in the instruction of science in their classrooms. Eighty-two teachers completed questionnaires about their beliefs, opinions, uses, and ideas about each of the three instructional methods. Data were collected and analyzed using the Statistical Package of the Social Sciences (SPSS). Descriptive statistics and Chi-Square analyses indicated that the majority of teachers reported using all three methods to varying degrees in their classrooms. Guided Discovery was reported by the teachers as being the most frequently used method to teach science, while Pure Discovery was reportedly used the least frequently. The majority of teachers expressed the belief that a blend of all three instructional methods is the most effective strategy for teaching science at the elementary level. The teachers also reported a moderate level of confidence in teaching science. Students' ability levels, learning styles, and time/class schedule were identified as factors that most influence teachers' instructional choice. Student participation in hands-on activities, creative thinking ability, and developing an understanding of scientific concepts were reported as the learning behaviors most associated with student success in science. Data obtained from this study provide information about the nature and uses of Direct Instruction, the Discovery Method, and the Inquiry Method and teachers' perceptions and beliefs about each method's use in science education. Learning more about the science teaching and learning environment may help teachers, administrators, curriculum developers, and researchers gain greater insights about student learning, instructional effectiveness, and science curriculum development at the elementary level.

Experience the natural sciences: Programs for teachers at the University of Hawaii at Hilo

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

Hapai, M.N.

1994-12-31

Since 1988, the University of Hawaii at Hilo Science and Education faculty have jointly created programs for pre- and in-service teachers, and to improve science teaching, to increase the number of science teachers, and to improve scientific literacy in the general population. The National Sciences major, approved in 1991, with both elementary and secondary teaching options, has gone from three degree seeking candidates in the fall of 1991 to fifty-nine in the spring of 1994. The major provides elementary teachers with a general science degree and teaching certification; and secondary teachers with a more intense general science degree, a specializedmore » minor, and teaching certification. Additionally, a new 18 credit Natural Sciences Certificate for in-service elementary teachers, designed to enhance their scientific background and classroom methodology, has already attracted over 250 teachers within the last year.« less

Voices from inside the elementary classroom: Three teachers' perspectives on the Alabama Reading Initiative and elementary science

NASA Astrophysics Data System (ADS)

Webb, Brenda Hainley

The influences of mandates, particularly the Alabama Reading Initiative (ARI) as the response to No Child Left Behind (2002), on elementary science education in Alabama were investigated. Teachers' voices provided insights to the status of science education in kindergarten, second grade, and third grade, and all three case participants reported negative influences of ARI on science education in their classrooms. The multiple case study, framed by critical theory and critical pedagogy, indicated that these teachers sometimes accepted marginalized roles in determining curriculum and pedagogy yet at other times made the decisions to empower themselves and negotiate or discard mandates in favor of meeting their children's learning needs or their own professional needs as they perceived them to be. Whether the case participants reached a threshold of resisting mandates or not, they struggled with the view of the political hierarchy that continues to force them into the status of being a technician rather than being a teaching professional. NCLB currently mandates standardized science testing, beginning in the spring of 2008. Historically, standardized testing reduces learning to low-level recall and teaching to rigid, uncreative, uncritical strategies. All of this intersects with science education reform and a national call for more attention to be given to science, technology, and mathematics learning. Research should track the continued influences of intersecting mandates on science education at every level.

Becoming Science Learners: A Study of Newcomers' Identity Work in Elementary School Science

ERIC Educational Resources Information Center

Gamez, Rebeca; Parker, Carolyn A.

2018-01-01

This study investigates how two newcomer students, Elena and Martin, identified with and in science within the context of a classroom utilizing a reform-based science curriculum where instruction occurred only in English. Using ethnographic case study methods, we drew from anthropological theories on identity development and sociocultural…

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

ERIC Educational Resources Information Center

Hollenbeck, James; Hristova-Hollenbeck, Darina Z.

2008-01-01

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

Supporting Kindergartners' Science Talk in the Context of an Integrated Science and Disciplinary Literacy Curriculum

ERIC Educational Resources Information Center

Wright, Tanya S.; Gotwals, Amelia Wenk

2017-01-01

Given the growing evidence of limited attention to science, disciplinary literacy, and oral language in elementary classrooms serving low-income children, this study focused on designing and testing an integrated science and disciplinary language and literacy curriculum aligned with NGSS and CCSS ELA standards for kindergarten. We used…

Teaching the Urban Student as a Whole: Utilizing Universal Skills in Science and Social Studies Interdisciplinary Curricula

NASA Astrophysics Data System (ADS)

Berg, Christianna

The purpose for this project is to utilize interdisciplinary curricula to emphasize transferable skills across the four main subject areas: reading, mathematics, science, and social studies. This project aims to provide a background for the creation of an interdisciplinary curricula that can be adjusted to current instructional programs being used in any classroom. The proposed curriculum is intended for a science and social studies elementary classroom where students rotate to a different mathematics and language arts classroom, but it could be applied to older grades or to self-contained classes. The proposed curriculum emphasizes problem solving, reading, and writing skills.

Elementary and middle school science improvement project

NASA Technical Reports Server (NTRS)

Mcguire, Saundra Y.

1989-01-01

The Alabama A and M University Elementary and Middle School Science Improvement Project (Project SIP) was instituted to improve the science knowledge of elementary and middle school teachers using the experimental or hands-on approach. Summer workshops were conducted during the summers of 1986, 1987, and 1988 in the areas of biology, chemistry, physics, and electricity, and magnetism. Additionally, a manual containing 43 lessons which included background information, experiments and activities for classroom and home use was provided to each teacher. During the course of the project activities, the teachers interacted with various university faculty members, scientists, and NASA staff. The administrative aspects of the program, the delivery of the services to participating teachers, and the project outcome are addressed.

Inspiring Instructional Change in Elementary School Science: The Relationship Between Enhanced Self-efficacy and Teacher Practices

NASA Astrophysics Data System (ADS)

Sandholtz, Judith Haymore; Ringstaff, Cathy

2014-10-01

This longitudinal study examined the extent to which teachers' participation in a 3-year professional development program enhanced their self-efficacy and prompted changes in science instruction in the early elementary grades. The study used a mixed-methods design, and included 39 teachers who taught in kindergarten, first grade, or second grade classrooms in rural school districts. Data sources, administered pre-program and at the end of each year, included a self-efficacy assessment and teacher survey. Interviews and classroom observations provided corroborating data about teachers' beliefs and science instruction. Results showed significant increases in teachers' overall self-efficacy in teaching science, personal efficacy, and outcome expectancy efficacy during the 3 years. Gains in self-efficacy were correlated with changes in reported instructional practices, particularly student participation activities. However, changes in self-efficacy tended not to be correlated with changes in instructional time. Contextual factors beyond teachers' direct control, such as curricular and testing requirements in mathematics and language arts influenced time allotted to science instruction.

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

ERIC Educational Resources Information Center

Avard, Margaret

2009-01-01

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

Fostering Second Graders' Scientific Explanations: A Beginning Elementary Teacher's Knowledge, Beliefs, and Practice

ERIC Educational Resources Information Center

Beyer, Carrie J.; Davis, Elizabeth A.

2008-01-01

Teaching science as explanation is fundamental to reform efforts but is challenging for teachers--especially new elementary teachers, for whom the complexities of teaching are compounded by high demands and little classroom experience. Despite these challenges, few studies have characterized the knowledge, beliefs, and instructional practices that…

Asthma Education: An Integrated Approach. Ideas for Elementary Classrooms.

ERIC Educational Resources Information Center

Minnesota State Dept. of Health, St. Paul.

This manual contains lesson plans for teaching all children how to monitor their own health and for teaching children with asthma how to play a role in the management of their condition. Each lesson plan is compatible with existing traditional elementary curricula for math, science, health, or language arts. After an introduction that discusses…

Metaphors Reveal Preservice Elementary Teachers' Views of Mathematics and Science Teaching

ERIC Educational Resources Information Center

Cassel, Darlinda; Vincent, Daniel

2011-01-01

Typically, experiences shape one's attitudes toward the "thing" that is being experienced, whether it is a person, pet, movie, etc. Classroom experiences also shape one's attitudes toward a subject, teacher, learning, and so forth. Studies have shown that attitudes become more negative as students move from elementary to secondary schools.…

Design, Customization and Implementation of Energy Simulation with 5E Model in Elementary Classroom

ERIC Educational Resources Information Center

Lye, Sze Yee; Wee, Loo Kang; Kwek, Yao Chie; Abas, Suriati; Tay, Lee Yong

2014-01-01

Science simulations are popular among educators as such simulations afford for multiple visual representation and interactivity. Despite the popularity and abundance on the internet, our literature review suggested little research has been conducted on the use of simulation in elementary school. Thus, an exploratory pilot case study was conducted…

Revisiting the Authoritative-Dialogic Tension in Inquiry-Based Elementary Science Teacher Questioning

NASA Astrophysics Data System (ADS)

Van Booven, Christopher D.

2015-05-01

Building on the 'questioning-based discourse analytical' framework developed by Singapore-based science educator and discourse analyst, Christine Chin, this study investigated the extent to which fifth-grade science teachers' use of questions with either an authoritative or dialogic orientation differentially restricted or expanded the quality and complexity of student responses in the USA. The author analyzed approximately 10 hours of classroom discourse from elementary science classrooms organized around inquiry-based science curricula and texts. Teacher questions and feedback were classified according to their dialogic orientation and contextually inferred structural purpose, while student understanding was operationalized as a dynamic interaction between cognitive process, syntacto-semantic complexity, and science knowledge type. The results of this study closely mirror Chin's and other scholars' findings that the fixed nature of authoritatively oriented questioning can dramatically limit students' opportunities to demonstrate higher order scientific understanding, while dialogically oriented questions, by contrast, often grant students the discursive space to demonstrate a greater breadth and depth of both canonical and self-generated knowledge. However, certain teacher questioning sequences occupying the 'middle ground' between maximal authoritativeness and dialogicity revealed patterns of meaningful, if isolated, instances of higher order thinking. Implications for classroom practice are discussed along with recommendations for future research.

Embedding Probeware Technology in the Context of Ocean Acidification in Elementary Science Methods Courses

NASA Astrophysics Data System (ADS)

Ensign, Todd I.; Rye, James A.; Luna, Melissa J.

2017-12-01

Research indicates that preservice teacher (PT) education programs can positively impact perceptions of scientific probeware use in K-8 environments. Despite the potential of probeware to improve science instruction and student engagement, its use in elementary education has been limited. Sixty-seven PT enrolled across three sections of an elementary science methods course participated in a mixed-methods study through which they utilized probeware in a thematic experience on ocean acidification. One-way repeated measures ANOVA of pre and post survey data measuring subscales of utility, ability, and intent to use probeware demonstrated a statistically significant increase with medium to large effect sizes for all subscales across all sections (p<0.01,{η}_p^2=0.384;p<0.001,{η}_p^2=0.517;p<0.001,{η}_p^2=0.214) . Analysis of reflective journals revealed over 60% felt the multiple capabilities (notably graphing) of probeware make it a useful classroom tool, and almost one-half believed that its use makes science more enjoyable and engaging. Mapping of the unitized data from the journals on the Next Generation Science Standards suggested that probeware use especially engages learners in planning and carrying out investigations and in analyzing and interpreting data. Journals also revealed that despite PT having prior experience with probeware in science courses, its use in their future elementary classroom is conditional on having a positive experience with probeware in a science methods course. Further, embedding a probeware experience in a unit on ocean acidification provides PT with strategies for addressing climate change and engaging in argument from evidence.

Self Reflections of Undergraduate Students on Using Web-Supported Counterintuitive Science Demonstrations

ERIC Educational Resources Information Center

Kumar, David Devraj; Dunn, Jessica

2018-01-01

Analysis of self-reflections of undergraduate education students in a project involving web-supported counterintuitive science demonstrations is reported in this paper. Participating students (N = 19) taught science with counterintuitive demonstrations in local elementary school classrooms and used web-based resources accessed via wireless USB…

Graphically Enhanced Science Notebooks

ERIC Educational Resources Information Center

Minogue, James; Wiebe, Eric; Madden, Lauren; Bedward, John; Carter, Mike

2010-01-01

A common mode of communication in the elementary classroom is the science notebook. In this article, the authors outline the ways in which "graphically enhanced science notebooks" can help engage students in complete and robust inquiry. Central to this approach is deliberate attention to the efficient and effective use of student-generated…

A Drainage Model: A One-Week Project.

ERIC Educational Resources Information Center

Lennert, James W.

1981-01-01

Describes a one-week unit in Earth science for the elementary science classroom. The concepts included are land formation, erosion, the water cycle, and human impact on the Earth's surface through planning and building a massive outdoor drainage model. (Author/DS)

Connectivity Theory at Work: The Referrals between Science and Mathematics in a Science Unit

ERIC Educational Resources Information Center

Mehmetlioglu, Deniz; Ozdem, Yasemin

2014-01-01

Researches carried out all around the world showed that students learn more effectively if they are able to make connections between subjects. This case reports based on an investigation of how mathematics concepts were connected to science concepts by a science teacher in an elementary science classroom, and on the science teacher's views about…

Accessible Universe: Making Astronomy Accessible to All in the Regular Elementary Classroom

NASA Astrophysics Data System (ADS)

Grady, C. A.; Farley, N.; Avery, F.; Zamboni, E.; Clark, B.; Geiger, N.; de Angelis, M.; Woodgate, B.

2002-05-01

Astronomy is one of the most publicly accessible of the sciences, with a steady stream of new discoveries, and wide public interest. The study of exo-planetary systems is a natural extension of studies of the Solar System at the elementary and middle-school level. Such space-related topics are some of the most popular science curriculum areas at the elementary level and can serve as a springboard to other sciences, mathematics, and technology for typical student learners. Not all students are typical: 10 percent of American students are identified as having disabilities which impact their education sufficiently that they receive special education services; various estimates suggest that an additional 10 percent may have milder impairments. Most frequently these students are placed in comprehensive (mixed-ability) classrooms. Budgetary limitations for most school systems have meant that for the bulk of these children, usually those with comparatively mild learning impairments affecting their ability to access text materials and in some cases to make effective use of visual materials, individualized accommodations in the science curriculum have not been readily available. Our team, consisting of an astronomer, regular education teachers, and special educators has been piloting a suite of curriculum materials, modified activities, including use of assistive technology, age- appropriate astronomy web resources, and instructional strategies which can more effectively teach astronomy to children with disabilities in the regular education grade 3-5 classroom. This study was supported by a grant HST-EO-8474 from the STScI and funded by NASA.

Exploring multiliteracies, student voice, and scientific practices in two elementary classrooms

NASA Astrophysics Data System (ADS)

Allison, Elizabeth Rowland

This study explored the voices of children in a changing world with evolving needs and new opportunities. The workplaces of rapidly moving capitalist societies value creativity, collaboration, and critical thinking skills which are of growing importance and manifesting themselves in modern K-12 science classroom cultures (Gee, 2000; New London Group, 2000). This study explored issues of multiliteracies and student voice set within the context of teaching and learning in 4th and 5th grade science classrooms. The purpose of the study was to ascertain what and how multiliteracies and scientific practices (NGSS Lead States, 2013c) are implemented, explore how multiliteracies influence students' voices, and investigate teacher and student perceptions of multiliteracies, student voice, and scientific practices. Grounded in a constructivist framework, a multiple case study was employed in two elementary classrooms. Through observations, student focus groups and interviews, and teacher interviews, a detailed narrative was created to describe a range of multiliteracies, student voice, and scientific practices that occurred with the science classroom context. Using grounded theory analysis, data were coded and analyzed to reveal emergent themes. Data analysis revealed that these two classrooms were enriched with multiliteracies that serve metaphorically as breeding grounds for student voice. In the modern classroom, defined as a space where information is instantly accessible through the Internet, multiliteracies can be developed through inquiry-based, collaborative, and technology-rich experiences. Scientific literacy, cultivated through student communication and collaboration, is arguably a multiliteracy that has not been considered in the literature, and should be, as an integral component of overall individual literacy in the 21st century. Findings revealed four themes. Three themes suggest that teachers address several modes of multiliteracies in science, but identify barriers to integrating multiliteracies and scientific practices into science teaching. The issues include time, increased standards accountability, and lack of comfort with effective integration of technology. The fourth theme revealed that students have the ability to shape and define their learning while supporting other voices through collaborative science experiences.

A case study on the formation and sharing process of science classroom norms

NASA Astrophysics Data System (ADS)

Chang, Jina; Song, Jinwoong

2016-03-01

The teaching and learning of science in school are influenced by various factors, including both individual factors, such as member beliefs, and social factors, such as the power structure of the class. To understand this complex context affected by various factors in schools, we investigated the formation and sharing process of science classroom norms in connection with these factors. By examining the developmental process of science classroom norms, we identified how the norms were realized, shared, and internalized among the members. We collected data through classroom observations and interviews focusing on two elementary science classrooms in Korea. From these data, factors influencing norm formation were extracted and developed as stories about norm establishment. The results indicate that every science classroom norm was established, shared, and internalized differently according to the values ingrained in the norms, the agent of norm formation, and the members' understanding about the norm itself. The desirable norms originating from values in science education, such as having an inquiring mind, were not established spontaneously by students, but were instead established through well-organized norm networks to encourage concrete practice. Educational implications were discussed in terms of the practice of school science inquiry, cultural studies, and value-oriented education.

Toward Understanding the Nature of a Partnership Between an Elementary Classroom Teacher and an Informal Science Educator

NASA Astrophysics Data System (ADS)

Weiland, Ingrid S.; Akerson, Valarie L.

2013-12-01

This study explored the nature of the relationship between a fifth-grade teacher and an informal science educator as they planned and implemented a life science unit in the classroom, and sought to define this relationship in order to gain insight into the roles of each educator. In addition, student learning as a result of instruction was assessed. Prior research has predominately examined relationships and roles of groups of teachers and informal educators in the museum setting (Tal et al. in Sci Educ 89:920-935, 2005; Tal and Steiner in Can J Sci Math Technol Educ 6:25-46, 2006; Tran 2007). The current study utilized case study methodology to examine one relationship (between two educators) in more depth and in a different setting—an elementary classroom. The relationship was defined through a framework of cooperation, coordination, and collaboration (Buck 1998; Intriligator 1986, 1992) containing eight dimensions. Findings suggest a relationship of coordination, which requires moderate commitment, risk, negotiation, and involvement, and examined the roles that each educator played and how they negotiated these roles. Consistent with previous examinations in science education of educator roles, the informal educator's role was to provide the students with expertise and resources not readily available to them. The roles played by the classroom teacher included classroom management, making connections to classroom activities and curricula, and clarifying concepts. Both educators' perceptions suggested they were at ease with their roles and that they felt these roles were critical to the optimization of the short time frames (1 h) the informal educator was in the classroom. Pre and posttest tests demonstrated students learned as a result of the programs.

Science Experiments, Field and Classroom.

ERIC Educational Resources Information Center

Davido, Frank, Comp.

Included is a compilation of 21 simple experiments for use by elementary teachers and aides. The experiments are grouped into these categories: plants, insects, and senses. The materials required are not specialized and would generally be available in the classroom or from a local store. A number of films are recommended and are available from the…

Blogging across the Curriculum: An Action Research Project

ERIC Educational Resources Information Center

Nichols, Andrea

2012-01-01

"Blogging across the curriculum: Integrating blogging in the elementary classroom" is an Action Research Project that sought to explore the level of engagement in the writing process by students in grades 3, 4 & 5 while blogging across the curriculum. Blogging took place in homeroom classrooms as well as in the school's math, science and…

A program evaluation of Protovation Camp at an elementary school in North Carolina

NASA Astrophysics Data System (ADS)

Cavoly, Denise Y.

The purpose of this program evaluation was to investigate the impact over time teachers' self-efficacies and the outcome expectancies of those who participated in an inquiry-based, hands-on, constructivist professional development program to learn science content. The hope was that after active participation in this inquiry-based professional development program that provides science inquiry experiences, the teachers, graduate students and elementary students would gain content knowledge, increase self-efficacies, and provide the outcome expectancies of the learning development program that provides science inquiry experiences. The mixed-methods approach used quantitative and qualitative data for campers, which consisted of pre-test and post-test scores on the Test of Science-Related Attitudes (TOSRA), the Draw-A-Scientist Test, Science Process Skills Inventory (SPSI) and content tests based on the camp activities. Additionally, TOSRA scores, Teacher Sense of Efficacy Scale (TSES), and Thinking about Science Survey (TSSI) results for the graduate students and elementary teachers were used along with qualitative data collected from plusdelta charts and interviews to determine the impact of participation in Protovation Camp on teachers and students. Results of the program evaluation indicated that when students were taught inquiry-based lessons that ignite wonder, both their attitudes toward science and their knowledge about science improved. An implication for teacher preparation programs was that practicing inquiry-based lessons on actual elementary students was an important component for teachers and graduate students as they prepare to positively impact student learning in their own classrooms. The findings of this study suggest that it is not just the length of the professional development program that is crucial, but the need for an implementation period while teachers work to transfer the learning to the classroom to their own students is critical to the success of process.

Challenging Traditional Assumptions of High School Science through the Physics and Everyday Thinking Curriculum™

ERIC Educational Resources Information Center

Ross, Michael J.

2013-01-01

Science education in the U.S. has failed for over a century to bring the experience of scientific induction to classrooms, from elementary science to undergraduate courses. The achievement of American students on international comparisons of science proficiency is unacceptable, and the disparities between groups underrepresented in STEM and others…

Roles, intents, and actions: First-year teachers' uses of discourse during elementary science instruction

NASA Astrophysics Data System (ADS)

Newman, William J., Jr.

In this study, I examined how three first-year elementary teachers constructed and used classroom discourse during science instruction. The three participants, though graduates from different universities, learned to teach science through similar science methods courses, which stressed the importance of inquiry-based science instruction. The participants taught different grade levels, and two of them taught at the same school. Data sources included field notes, videotapes, audiotapes, and semi-structured teacher interviews. While monologic and dialogic discourse existed in all three classrooms, monologic discourse was more prominent, especially when the discourse was teacher controlled. Dialogic discourse occurred most often during student-centered activities. The teachers constructed discourse with authoritative function to present science content and determine student comprehension. Generative function was most likely during student-based small group discussions. Monologic character often aligned with authoritative function, and dialogic character often aligned with generative function. However, monologic/generative and dialogic/authoritative discourse events did occur, contributing to the development of a discourse theory model. The teacher explanations for discourse included classroom control, inadequate planning, time constraints, life experiences, science education standards, and assessment. The teachers relied on their texts, kits, and state science standards to determine the content and methods for science instruction. They rarely reported that their science methods courses influenced how they taught science. The observed lessons rarely aligned with science education reform descriptions of appropriate science instruction. Implications include the need for in-service programs for beginning science teachers, curricular reform for science texts and kits, and explicit instruction of discourse strategies in science methods courses and in-service programs.

How Does Science Learning Occur in the Classroom? Students' Perceptions of Science Instruction during the Implementation of REAPS Model

ERIC Educational Resources Information Center

Gomez-Arizaga, Maria P.; Bahar, A. Kadir; Maker, C. June; Zimmerman, Robert; Pease, Randal

2016-01-01

In this qualitative study the researchers explored children's perceptions of their participation in a science class in which an elementary science curriculum, the Full Option Science System (FOSS), was combined with an innovative teaching model, Real Engagement in Active Problem Solving (REAPS). The children were capable of articulating views…

Caring Enough to Teach Science: Helping Pre-Service Teachers View Science Instruction as an Ethical Responsibility

ERIC Educational Resources Information Center

Grinell, Smith; Rabin, Colette

2017-01-01

The goal of this project was to motivate pre-service elementary teachers to commit to spending significant instructional time on science in their future classrooms despite their self-assessed lack of confidence about teaching science and other impediments (e.g., high-stakes testing practices that value other subjects over science). Pre-service…

Care and Maintenance.

ERIC Educational Resources Information Center

Hampton, Carolyn H.; Hampton, Carol D.

1981-01-01

Techniques are described for using living plants in the elementary science classroom including the germination and planting of seeds, transplanting seedlings, vegetative propagation, stem and leaf cuttings, and other plant studies. (DS)

Development, Validation and Application of a Malay Translation of an Elementary Version of the Questionnaire on Teacher Interaction

ERIC Educational Resources Information Center

Scott, Rowena H.; Fisher, Darrell L.

2004-01-01

An elementary version of the "Questionnaire on Teacher Interaction" (QTI) and a scale for determining students' "Enjoyment of their Science Lessons" (ENJ) were translated into Standard Malay. This process, together with its initial validation carried out in 136 classrooms with 3,104 students, is described in this paper.…

Scientific Practices in Elementary Classrooms: Third-Grade Students' Scientific Explanations for Seed Structure and Function

ERIC Educational Resources Information Center

Zangori, Laura; Forbes, Cory T.

2014-01-01

Elementary science standards emphasize that students should develop conceptual understanding of the characteristics and life cycles of plants (National Research Council, 2012), yet few studies have focused on early learners' reasoning about seed structure and function. The purpose of this study is twofold: to (a) examine third-grade…

Using Science to Promote Preservice Teacher Understanding of Problem Solving in Mathematics

ERIC Educational Resources Information Center

Tobias, Jennifer M.; Ortiz, Enrique

2007-01-01

Preservice elementary teachers need to be given the experiences of integrating mathematics with other subjects. They need to go into the classroom with the understanding that mathematics is not an isolated topic. This article describes a paper airplane activity that was presented in a class of preservice elementary education teachers to show how…

Keeping Young Gifted Students Engaged through Science

ERIC Educational Resources Information Center

Corash, Dennis N.; Jones, Melinda

2012-01-01

Many children fall in love with science at an early age. There is just something about exploring critters, crud, gears, pulleys, and other "stuff" that has fascinated generations of young students. Unfortunately, in many schools across the nation, science in the elementary classroom is relegated to the back burner as other curricular areas have…

Questioning Questions: Elementary Teachers' Adaptations of Investigation Questions across the Inquiry Continuum

ERIC Educational Resources Information Center

Biggers, Mandy

2018-01-01

Questioning is a central practice in science classrooms. However, not every question translates into a "good" science investigation. Questions that drive science investigations can be provided by many sources including the teacher, the curriculum, or the student. The variations in the source of investigation questions were explored in…

Instruction and Students' Declining Interest in Science: An Analysis of German Fourth- and Sixth-Grade Classrooms

ERIC Educational Resources Information Center

Tröbst, Steffen; Kleickmann, Thilo; Lange-Schubert, Kim; Rothkopf, Anne; Möller, Kornelia

2016-01-01

Students' interest in science declines substantially in the transition from elementary to secondary education. Using students' ratings of their instruction on the topic of evaporation and condensation, we examined if changes in instructional practices accounted for differences in situational interest in science instruction and enduring individual…

Breathing Life into Engineering: A Lesson Study Life Science Lesson

ERIC Educational Resources Information Center

Lawrence, Maria; Yang, Li-Ling; Briggs, May; Hession, Alicia; Koussa, Anita; Wagoner, Lisa

2016-01-01

A fifth grade life science lesson was implemented through a lesson study approach in two fifth grade classrooms. The research lesson was designed by a team of four elementary school teachers with the goal of emphasizing engineering practices consistent with the "Next Generation Science Standards" (NGSS) (Achieve Inc. 2013). The fifth…

Engaging Elementary Students in Learning Science: An Analysis of Classroom Dialogue

ERIC Educational Resources Information Center

Watters, James J.; Diezmann, Carmel M.

2016-01-01

Research over a long period of time has continued to demonstrate problems in the teaching of science in school. In addition, declining levels of participation and interest in science and related fields have been reported from many particularly western countries. Among the strategies suggested is the recruitment of professional scientists and…

Integrating Science and Language Arts: A Sourcebook for K-6 Teachers.

ERIC Educational Resources Information Center

Shaw, Donna Gail; Dybdahl, Claudia S.

The purpose of this sourcebook is to provide elementary classroom teachers with meaningful ideas and activities for supplementing their science and language arts programs. Five general topics encompassing the earth, life, and physical science have been selected as units and further subdivided into chapters. Each chapter contains a multitude of…

Conducting Science Inquiry in Primary Classrooms: Case Studies of Two Preservice Teachers' Inquiry-Based Practices

ERIC Educational Resources Information Center

Leonard, Jacqueline; Boakes, Norma; Moore, Cara M.

2009-01-01

This study examined the impact of an intervention designed to promote inquiry-based instruction among early childhood/elementary preservice teachers in Earth science. Preservice teachers participated in training sessions and community-based internships to deepen Earth science content knowledge and develop inquiry-based practices. Analyses of Earth…

Giving Students the Power to Engage with Learning

NASA Astrophysics Data System (ADS)

Cochran, Kathryn F.; Reinsvold, Lori A.; Hess, Chelsie A.

2017-12-01

This critical discourse analysis study identifies and describes power relationships in elementary classrooms that support science engagement by providing students time to think, ask questions, and find their voices to talk about subject matter. The first analyses involved identification and description of classroom episodes showing high levels of student power and engagement associated with learning science. Classroom episodes were grouped into seven power patterns: use of questions, teacher sharing authority, giving students credit for knowledge, legitimate digressions, enhanced feedback, and writing opportunities. The second analyses documented the manner in which these patterns formed more complex classroom engagement processes called power clusters. These examples further our understanding of the dynamics of classroom discourse and the relationships between student power and engagement in subject matter.

Engineering education for youth: Diverse elementary school students' experiences with engineering design

NASA Astrophysics Data System (ADS)

Hegedus, Theresa

Lingering concerns over the persistent achievement gap amidst the trend of an increasingly diverse society have been compounded by calls from the Oval Office, the National Science Board, and nationwide media to also address our current creativity crisis. Now, more than ever, we have a responsibility to produce a STEM-capable (science, technology, engineering, and mathematics) workforce to meet the demands of our rapidly changing local and global economic landscape. Barriers exist in our traditional educational system, which has historically limited underrepresented groups' affiliation and membership in the disciplines of science and engineering. The recent incorporation of engineering into the latest science education reform efforts presents an opportunity to expose students as early as elementary school to engineering practices and habits of mind, which have the potential to stimulate creative thinking skills through engineering design. This qualitative study was designed to examine the ways in which engineering education has the potential to promote creativity and academic competence in elementary science classrooms. As a part of my study, a diverse group of students from two fifth-grade classrooms took part in a 10-12 hour, engineering-based curriculum unit (Engineering is Elementary) during their regular science instructional time. Using a sociocultural lens, to include cultural production and identities in practice as part of my framework, I analyzed group and individual performances through classroom observations, student interviews, and teacher reflections to better understand the meaning students made of their experiences with engineering. Findings from the study included the ways in which creativity was culturally produced in the classroom to include: 1) idea generation; 2) design and innovation; 3) gumption/resourcefulness; and 4) social value. Opportunities for collaboration increased through each stage of the unit culminating with the design challenge. Engineering teams required cultivation by the teacher as students negotiated spaces for collaboration through challenges of competition versus compromise; assumed versus assigned roles; management of verbal versus non-verbal communication; and shifts from teacher-as-authority-figure to peers as sources of knowledge and inspiration. The engineering design challenge provided an ideal context for broaching socio-scientific issues and attention to ethical considerations. Students made reference to their growing environmental awareness and developing moral reasoning in their definitions and reflections on green engineering. Throughout the course of the unit, successful students, struggling students, and students with uncertain trajectories established themselves as competent and efficacious engineers. Implications of the study include ways to assist teachers in recognizing and cultivating creativity and collaboration in addition to effectively incorporating socio-scientific issues as part of the engineering (and science) curriculum. I also present recommendations for promoting equity in classroom engineering, pre-service teacher initiatives, and strategies for capitalizing on the complementarity between science and engineering.

Time for a Change

ERIC Educational Resources Information Center

McCann, Florence; Millsap-Shobert, Katie; Schmidt, Sherland Ann; Falsarella, Carell

2010-01-01

Fifth graders in Mrs. Caldwell's class would soon experience a "change" as they made the transition from elementary to middle school. Participation in classroom inquiry investigations and schoolwide science enrichment events had already developed students' enthusiasm for science; here was an opportunity to solidify that enthusiasm. Guest science…

Language experience narratives and the role of autobiographical reasoning in becoming an urban science teacher

NASA Astrophysics Data System (ADS)

Rivera Maulucci, Maria S.

2011-06-01

One of the central challenges globalization and immigration present to education is how to construct school language policies, procedures, and curricula to support academic success of immigrant youth. This case-study compares and contrasts language experience narratives along Elena's developmental trajectory of becoming an urban science teacher. Elena reflects upon her early language experiences and her more recent experiences as a preservice science teacher in elementary dual language classrooms. The findings from Elena's early schooling experiences provide an analysis of the linkages between Elena's developing English proficiency, her Spanish proficiency, and her autobiographical reasoning. Elena's experiences as a preservice teacher in two elementary dual language classrooms indicates ways in which those experiences helped to reframe her views about the intersections between language learning and science learning. I propose the language experience narrative, as a subset of the life story, as a way to understand how preservice teachers reconstruct past language experiences, connect to the present, and anticipate future language practices.

Chance, choice and opportunity: Life history study of two exemplary female elementary science teachers

NASA Astrophysics Data System (ADS)

Hitt, Kathleen Milligan

The purpose of this two-year study was to investigate why two female elementary teachers became exemplary science teachers, despite conditions which do not promote such achievement. Each teachers' progress was examined using life history methodology. The study's theoretical grounding included females' academic and attitudinal success in science education. Purposeful sampling of peers, administrators, and college professors produced two research participants. Both teachers participated in interviews, observations, and member checks lasting over one year. Data were analyzed inductively, resulting in two life histories. Comparing the life stories using confluence theory (Feldman, 1986) indicated four major categories for consideration: risk-taking; life-long learning; gender equity; and mentors. Risk-taking is necessary for female elementary teachers because of their often poor educational background. Few female role models support efforts for achievement. Life-long learning, including extensive reading and graduate-level classes, supports female teachers' personal and professional growth. Exposure to new ideas and teacher practices encourages curricular change and refinement in science education. Gender inequity and the male-packaging of science is an issue to be resolved by female elementary teachers. Mentors can provide interaction and feedback to refine science instructional practices. Professors, peers, and mentor teachers support instructional and content knowledge efforts. Recommendations for science education in classroom practices, preservice teacher education and continuing professional development include female-friendly approaches to science instruction. Decreased competitive practices through cooperative learning and gender inclusive language encourages female participation and achievement in classrooms. Hands-on, inquiry-based instruction and verbalization encourages female students' achievement in science education. Preservice teachers must receive adequate conceptual understanding in college science courses. Addressing knowledge, beliefs, attitudes, and gender issues inherent in prior science education assists students to be reflective. Practicing teachers should be encouraged to work collaboratively, be reflective, and be aware of gender inequity issues. In-depth professional development efforts are need to support these changes. Administrators must be supportive of the process. Further research can add to and expand this body of knowledge through additional research into male elementary science teachers' life experiences. Research with preservice teachers may reveal similar findings even though their historical time period differs from the two participants in this study.

Classroom Foils

ERIC Educational Resources Information Center

Pafford, William N.

1970-01-01

Aluminum foil, because of its characteristics, can be used for many elementary science activities: demonstrating Archimedes Principle, how to reduce cohesion, reflection and mirror effect, fuse action, condensation, friction, and as containers and barriers. (BR)

Exploring teacher's perceptions of concept mapping as a teaching strategy in science: An action research approach

NASA Astrophysics Data System (ADS)

Marks Krpan, Catherine Anne

In order to promote science literacy in the classroom, students need opportunities in which they can personalize their understanding of the concepts they are learning. Current literature supports the use of concept maps in enabling students to make personal connections in their learning of science. Because they involve creating explicit connections between concepts, concept maps can assist students in developing metacognitive strategies and assist educators in identifying misconceptions in students' thinking. The literature also notes that concept maps can improve student achievement and recall. Much of the current literature focuses primarily on concept mapping at the secondary and university levels, with limited focus on the elementary panel. The research rarely considers teachers' thoughts and ideas about the concept mapping process. In order to effectively explore concept mapping from the perspective of elementary teachers, I felt that an action research approach would be appropriate. Action research enabled educators to debate issues about concept mapping and test out ideas in their classrooms. It also afforded the participants opportunities to explore their own thinking, reflect on their personal journeys as educators and play an active role in their professional development. In an effort to explore concept mapping from the perspective of elementary educators, an action research group of 5 educators and myself was established and met regularly from September 1999 until June 2000. All of the educators taught in the Toronto area. These teachers were interested in exploring how concept mapping could be used as a learning tool in their science classrooms. In summary, this study explores the journey of five educators and myself as we engaged in collaborative action research. This study sets out to: (1) Explore how educators believe concept mapping can facilitate teaching and student learning in the science classroom. (2) Explore how educators implement concept mapping in their classrooms. (3) Identify challenges educators experience when they implement concept mapping. (4) Explore factors that impact on facilitating collaborative action research. (5) Provide insight into my growth as an action research facilitator.

Elementary Science Education in Classrooms and Outdoors: Stakeholder views, gender, ethnicity, and testing

NASA Astrophysics Data System (ADS)

Carrier, Sarah J.; Thomson, Margareta M.; Tugurian, Linda P.; Tate Stevenson, Kathryn

2014-09-01

In this article, we present a mixed-methods study of 2 schools' elementary science programs including outdoor instruction specific to each school's culture. We explore fifth-grade students in measures of science knowledge, environmental attitudes, and outdoor comfort levels including gender and ethnic differences. We further examine students' science and outdoor views and activity choices along with those of adults (teachers, parents, and principals). Significant differences were found between pre- and posttest measures along with gender and ethnic differences with respect to students' science knowledge and environmental attitudes. Interview data exposed limitations of outdoor learning at both schools including standardized test pressures, teachers' views of science instruction, and desultory connections of alternative learning settings to 'school' science.

Live Storybook Outcomes of Pilot Multidisciplinary Elementary Earth Science Collaborative Project

NASA Astrophysics Data System (ADS)

Soeffing, C.; Pierson, R.

2017-12-01

Live Storybook Outcomes of pilot multidisciplinary elementary earth science collaborative project Anchoring phenomena leading to student led investigations are key to applying the NGSS standards in the classroom. This project employs the GLOBE elementary storybook, Discoveries at Willow Creek, as an inspiration and operational framework for a collaborative pilot project engaging 4th grade students in asking questions, collecting relevant data, and using analytical tools to document and understand natural phenomena. The Institute of Global Environmental Strategies (IGES), a GLOBE Partner, the Outdoor Campus, an informal educational outdoor learning facility managed by South Dakota Game, Fish and Parks, University of Sioux Falls, and All City Elementary, Sioux Falls are collaborating partners in this project. The Discoveries at Willow Creek storyline introduces young students to the scientific process, and models how they can apply science and engineering practices (SEPs) to discover and understand the Earth system in which they live. One innovation associated with this project is the formal engagement of elementary students in a global citizen science program (for all ages), GLOBE Observer, and engaging them in data collection using GLOBE Observer's Cloud and Mosquito Habitat Mapper apps. As modeled by the fictional students from Willow Creek, the 4th grade students will identify their 3 study sites at the Outdoor Campus, keep a journal, and record observations. The students will repeat their investigations at the Outdoor Campus to document and track change over time. Students will be introduced to "big data" in a manageable way, as they see their observations populate GLOBE's map-based data visualization and . Our research design recognizes the comfort and familiarity factor of literacy activities in the elementary classroom for students and teachers alike, and postulates that connecting a science education project to an engaging storybook text will contribute to a successful implementation and measurable learning outcomes. We will report on the Fall 2017 pilot metrics of success, along with a discussion of multi partner collaborations, project scale-up and sustainability.

Using Arts Integration to Make Science Learning Memorable in the Upper Elementary Grades: A Quasi-Experimental Study

ERIC Educational Resources Information Center

Graham, Nicholas James; Brouillette, Liane

2016-01-01

The Next Generation Science Standards (NGSS) have brought a stronger emphasis on engineering into K-12 STEM (science, technology, engineering and mathematics) instruction. Introducing the design process used in engineering into science classrooms simulated a dialogue among some educators about adding the arts to the mix. This led to proposals for…

Early Childhood Educators' Self-Efficacy in Science, Math, and Literacy Instruction and Science Practice in the Classroom

ERIC Educational Resources Information Center

Gerde, Hope K.; Pierce, Steven J.; Lee, Kyungsook; Van Egeren, Laurie A.

2018-01-01

Research Findings: Quality early science education is important for addressing the low science achievement, compared to international peers, of elementary students in the United States. Teachers' beliefs about their skills in a content area, that is, their content self-efficacy is important because it has implications for teaching practice and…

Slab Leaf Bowls

ERIC Educational Resources Information Center

Suitor, Cheryl

2012-01-01

In science class, fourth graders investigate the structure of plants and leaves from trees and how the process of photosynthesis turns sunlight into sugar proteins. In this article, the author fuses art and science for a creative and successful clay slab project in her elementary art classroom. (Contains 1 online resource.)

Engineering Encounters: Building a Spaghetti Structure

ERIC Educational Resources Information Center

Llewellyn, Douglas; Pray, Sandra; DeRose, Rob; Ottman, William

2016-01-01

This column presents ideas and techniques to enhance science teaching. In this month's issue an upper elementary Science, technology, engineering, and math (STEM) challenge brings an engineer into the classroom while emphasizing cooperation, communication, and creativity. STEM activities come in various shapes and sizes. Some are quite involved…

Understanding the Co-construction of Inquiry Practices: A Case Study of a Responsive Teaching Environment

ERIC Educational Resources Information Center

Maskiewicz, April C.; Winters, Victoria A.

2012-01-01

We set out to understand how different instantiations of inquiry emerged in two different years of one elementary teacher's classroom. Longitudinal observations from Mrs. Charles' 5th grade science classroom forced us to carefully and deliberately consider who exactly was responsible for the change in the class activities and norms. We provide…

Earth System Science for Elementary Teachers: An Innovative Approach to Teacher Professional Development.

NASA Astrophysics Data System (ADS)

Purkiss, C.

2015-12-01

In many professional development programs, teachers attend workshops to learn new knowledge and skills and then are expected to go back to their classrooms and implement what they learned. Often skills or an activity is learned but does not necessarily get practiced in the classroom. Very few professional development programs add direct, immediate practice with children where teachers can try out immediately the new activities or the knowledge they have just learned. In this case, the program directors wanted to see that, by having children to practice with in a non-threatening, low stakes environment, if participants would incorporate the activities and knowledge learned during the workshop into their classrooms in a more immediate way. Would immediate practice help participants internalize the new knowledge and skills and thus create a fund of knowledge that they would use immediately on their return to the classroom. As part of a grant for professional development for underserved elementary teachers on climate literacy, an innovative children's camp was added to a summer intensive workshop. Prior to the summer workshop, participants completed an eight-week online graduate level course on the basics of inquiry-based science. Participants then attended the intensive three-week workshop to gain knowledge in weather and climate and how to teach these concepts in their classrooms. The workshop was rich in materials and resources for participants. During the third week of the workshop, teachers were camp leaders to 100 elementary students in grades 3 through 5 who were participating in "Climate Camp". Various evaluation and assessments were completed during the program on all participants. Through various evaluation methods, it was found that there was a positive transfer of knowledge to the classroom.

Enhancing science teaching in an elementary school: A case study of a school-initiated Teacher Professional Development Program

NASA Astrophysics Data System (ADS)

Brooks, Clare M.

1998-12-01

This naturalistic case study documents a year long Teacher Professional Development Program (TPDP) initiated by an elementary school staff in British Columbia. The TPDP was designed to enable the teachers to meet their objective of making science instruction more frequent, more active, and more student-centered in all classrooms in the school. This case study addresses two research questions: (1) What attributes of the Teacher Professional Development Program supported the school's "objective" for improved science instruction? (2) How did the outcomes of the Teacher Professional Development Program relate to the achievement of the school's educational objective? The site for the research was a kindergarten--Grade 7 school. A university professor and the researcher were invited to visit the school on a bi-weekly basis during one school year (1993--94) to facilitate a series of science workshops involving the entire teaching staff and to provide classroom support to teachers. Teachers were offered university course credit for their participation. This case study draws on qualitative data including: audio recordings of planning/debriefing sessions, workshop discussions, and interviews with participants; field notes and written observations; a survey of teachers' opinions about the TPDP; and documents relating to the school accreditation process in 1994--95. The results of the study show that teachers, administrators, and parents were satisfied that the school's objective for science instruction was met, and that the TPDP contributed significantly to this outcome. The study identifies TPDP attributes which supported the school's objective with reference to the teachers and their context, the planning process, and the organizational context, that is, the school. This study contributes to our understanding of teacher professional development by examining an alternative to more common approaches to elementary teacher science inservice in British Columbia, which are typically short-term, designed by inservice providers with little input from participants, and removed physically and conceptually from the classroom. Such inservice experiences often lack administrative and collegial support for the teacher who attempts classroom implementation. While this study relates to science; the discussion is relevant to other curriculum areas such as fine arts or physical education.

An Experiential Study of Elementary Teachers with the Storytelling Process: Interdisciplinary Benefits Associated with Teacher Training and Classroom Integration

ERIC Educational Resources Information Center

Groce, Robin D.

2004-01-01

The purpose of this manuscript is to describe how elementary teachers used their experiences in a storytelling inservice training to teach lessons in language arts, science, social studies, and bilingual education. Qualitative research methods were used in simultaneously collecting and analyzing data. Storytelling was found to be a valuable tool…

Elementary Teachers' Ideas about, Planning for and Implementation of Learner-Directed and Teacher-Directed Inquiry: A Mixed Methods Study

ERIC Educational Resources Information Center

Biggers, Mandy Sue

2013-01-01

Using a framework for variations of classroom inquiry (National Research Council [NRC], 2000, p. 29), this study explored 40 inservice elementary teachers' planning, modification, and enactment of kit-based science curriculum materials. As part of the study, a new observation protocol was modified from an existing protocol (Practices of…

From learning science to teaching science: What transfers?

NASA Astrophysics Data System (ADS)

Harlow, Danielle Boyd

As educational researchers and teacher educators, we have the responsibility to help teachers gain the skills and knowledge necessary to provide meaningful learning activities for their students. For elementary school science, this means helping teachers create situations in which children can participate in the practices associated with scientific inquiry. Through the framework of transfer I investigated how a professional development course based on an inquiry-based physics curriculum influenced five elementary teachers teaching practices and identified the factors that led to or hindered this transfer. In this study, evidence of transfer consisted of episodes where the teachers used the ideas learned in the physics course to solve new problems such as transforming activities to be appropriate for their students and responding to unexpected students' ideas. The findings of this study highlight the many different ways that teachers use what they learn in content courses to teach science to elementary children. While some teachers transferred pedagogical practices along with the content, others transformed the content to be useful in already existing pedagogical frameworks, and still others show little or no evidence of transfer. What the teachers transferred depended upon their existing teaching context as well as their prior ideas about teaching science and physics content. Specifically, the findings of this study suggest that the teachers transferred only what they sought from the course. One implication of this study is that the sort of science training we provide teachers can affect far more than just the teachers' conceptual understanding of science and performance on written conceptual exams. Science courses have the potential to impact the sort of science education that K-5 children receive in elementary classrooms in terms of the topics taught but the way that science is represented. An additional implication is that teaching science to teachers in ways that help teachers consider how the content is useful in their classroom may facilitate transfer.

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.

Argumentation in elementary science education: addressing methodological issues and conceptual understanding

NASA Astrophysics Data System (ADS)

Kaya, Ebru

2017-11-01

In this review essay I respond to issues raised in Mijung Kim and Wolff-Michael Roth's paper titled "Dialogical argumentation in elementary science classrooms", which presents a study dealing with dialogical argumentation in early elementary school classrooms. Since there is very limited research on lower primary school students' argumentation in school science, their paper makes a contribution to research on children's argumentation skills. In this response, I focus on two main issues to extend the discussion in Kim and Roth's paper: (a) methodological issues including conducting a quantitative study on children's argumentation levels and focusing on children's written argumentation in addition to their dialogical argumentation, and (b) investigating children's conceptual understanding along with their argumentation levels. Kim and Roth emphasize the difficulty in determining the level of children's argumentation through the Toulmin's Argument Pattern and lack of high level arguments by children due to their difficulties in writing texts. Regarding these methodological issues, I suggest designing quantitative research on coding children's argument levels because such research could potentially provide important findings on children's argumentation. Furthermore, I discuss alternative written products including posters, figures, or pictures generated by children in order to trace children's arguments, and finally articulating argumentation and conceptual understanding of children.

Instructional Methods within the Elementary-School Science Classroom Related to Improved Academic Performance

ERIC Educational Resources Information Center

Baum, Lisa

2013-01-01

There is gap in passing rates on the standardized science assessment between European American and Hispanic American students. The purpose of this study was to examine student performance in science and the closing of the achievement gap between European American and Hispanic American students based upon receipt of an inquiry or noninquiry…

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…

Interactive and Textbook Lessons in Science Instruction: Combining Strategies to Engage Students in Learning

ERIC Educational Resources Information Center

Puentes, Christina

2007-01-01

Students in elementary classrooms are not receiving science instruction that is engaging and challenging. The review of the literature indicates that the way that the information is presented has more of an impact on the students than simply whether they comprehend the information. Studies show that hands-on science instruction allows success…

Nuclear Power in the Classroom: A Union of Science and Social Studies Education.

ERIC Educational Resources Information Center

Shillenn, James K.; Vincenti, John R.

This paper examines issues that K-12 science and social studies teachers need to keep in mind when teaching about nuclear power. The information needs to be presented in as objective a manner as possible. Science needs to become more social oriented. Team teaching should be encouraged. Elementary and secondary inservice teacher education is…

Place-Based Science Teaching and Learning: 40 Activities for K-8 Classrooms

ERIC Educational Resources Information Center

Buxton, Cory A.; Provenzo, Eugene F., Jr.

2011-01-01

Grounded in theory and best-practices research, this practical text provides elementary and middle school teachers with 40 place-based activities that will help them to make science learning relevant to their students. This text provides teachers with both a rationale and a set of strategies and activities for teaching science in a local context…

Apparatus: The Beginning of Inquiry.

ERIC Educational Resources Information Center

Horak, Willis

1980-01-01

Illustrated and described is a convection box for classroom use to stimulate concept development in elementary school children. Other equipment and apparatus that may be used in open-ended science activites are listed. (CS)

Learning science through talking science in elementary classroom

NASA Astrophysics Data System (ADS)

Tank, Kristina Maruyama; Coffino, Kara

2014-03-01

Elementary students in grade two make sense of science ideas and knowledge through their contextual experiences. Mattis Lundin and Britt Jakobson find in their research that early grade students have sophisticated understandings of human anatomy and physiology. In order to understand what students' know about human body and various systems, both drawings and spoken responses provide rich evidence of their understanding of the connections between science drawings and verbal explanations. In this forum contribution, we present several theoretical connections between everyday language and science communication and argue that building communication skills in science are essential. We also discuss how young participants should be valued and supported in research. Finally we discuss the need for multimodal research methods when the research participants are young.

Safety Precautions for Science.

ERIC Educational Resources Information Center

Folks, John; And Others

Safety information is discussed and outlined in this guide. Areas include: (1) general laboratory safety rules; (2) general rules and guidelines for animals in the elementary classroom; (3) general guidelines for the physical sciences; (4) general rules for using animals in investigations, with specifics on the care and handling of mammals,…

Dissection & Science Fairs. [Information Packet.

ERIC Educational Resources Information Center

National Anti-Vivisection Society, Chicago, IL.

This collection of pamphlets and articles reprinted from other National Anti-Vivisection Society (NAVS) publications was compiled to address the issues of classroom laboratory dissection and the use of animals in science fair projects. Three of the pamphlets contained in this packet are student handbooks designed to help students of elementary,…

Exploring Safely: A Guide for Elementary Teachers.

ERIC Educational Resources Information Center

Kwan, Terry; Texley, Juliana

It is very important to provide a safe learning environment for students while engaging them in investigative and observational hands-on science activities. This teacher's guide provides information on safety rules and regulations in a narrative style while discussing both self-contained classroom teachers and science specialists in the elementary…

Teacher's Guide for Budding Twigs. Elementary Science Study.

ERIC Educational Resources Information Center

Crowley, Rose Lea; And Others

This teaching guide supplements a science unit concerned with bud maturation recommended for use in fourth- and fifth-grade classrooms. The first section describes possible activities for children to explore, such as field study, collections, dissecting, and experiments. The second section offers a few brief suggestions for teaching the unit. The…

Navigating a Sea of Ideas: Teacher and Students Negotiate a Course toward Mutual Relevance.

ERIC Educational Resources Information Center

Flick, Lawrence B.

1995-01-01

Uses theories of social cognition and verbal communication to analyze how an experienced fourth-grade teacher blends teaching skills in language arts and reading with hands-on science to stimulate classroom inquiry. Discusses implications for elementary science instruction. Contains 41 references. (Author/JRH)

Ciencias 3. Manual do Professor (Science 3. Teacher's Manual).

ERIC Educational Resources Information Center

Raposo, Lucilia

This teaching guide contains materials corresponding to those found in the nine sections of the grade 3 elementary science textbook. It also contains lesson objectives, instructional strategies, classroom activities, and evaluation methods. Among the topic areas found in the nine sections are: (1) solar energy, electricity, and light; (2) solar…

Hands-On Whole Science. What Rots?

ERIC Educational Resources Information Center

Markle, Sandra

1991-01-01

Presents activities on the science of garbage to help elementary students learn to save the earth. A rotting experiment teaches students what happens to apple slices sealed in plastic or buried in damp soil. Other activities include reading stories on the subject and conducting classroom composting or toxic materials projects. (SM)

The perceived impact of No Child Left Behind on third- through fifth-grade elementary science classrooms

NASA Astrophysics Data System (ADS)

Kinsler, Angela V.

The purpose of this study was to describe the perceived impact of No Child Left Behind on elementary science classrooms in 3 Northeast Tennessee school districts. Quantitative descriptive methodology was used to document how No Child Left Behind impacts instructional methodology, professional development, administrative support, materials and resources, and assessment in 3rd through 5th grades. Data were collected using a survey developed by the researcher. The survey consisted of a demographic section, 28 statements, and 2 open-ended questions. The 51 participants included elementary-school science teachers in 8 schools in 3 upper East Tennessee school districts. Data analysis was based on the following demographics: differing levels of teaching experience, No Child Left Behind school status, and small and large schools. Findings included: The 3 greatest concerns of the impact of the No Child Left Behind Act were the pressures felt by teachers to increase test scores, the manner in which it impacted at-risk or disadvantaged students, and the lack of inservice, specifically for science. Findings also revealed that low-scoring schools or grades were receiving extra assistance and teachers reported they feel that their school or district fosters and supports change. An analysis of the open-ended questions emphasized the stress teachers reported feeling along with the loss of science instruction time to math and language arts.

Mary Budd Rowe: a storyteller of science

NASA Astrophysics Data System (ADS)

Bianchini, Julie A.

2008-12-01

This article examines Mary Budd Rowe's groundbreaking and far-reaching contributions to science education. Rowe is best known for her research on wait-time: the idea that teachers can improve the quality and length of classroom discussions by waiting at least 3 s before and after student responses. Her wait-time research grew from and helped inform her staunch advocacy of science education as inquiry; Rowe saw wonder and excitement as central to the teaching and learning of science. She spent much of her professional life designing professional development experiences and innovative curriculum materials to help teachers, particularly elementary school teachers, enact inquiry in their classrooms.

Providing undergraduate science partners for elementary teachers: benefits and challenges.

PubMed

Goebel, Camille A; Umoja, Aminata; DeHaan, Robert L

2009-01-01

Undergraduate college "science partners" provided content knowledge and a supportive atmosphere for K-5 teachers in a university-school professional development partnership program in science instruction. The Elementary Science Education Partners program, a Local Systemic Change initiative supported by the National Science Foundation, was composed of four major elements: 1) a cadre of mentor teachers trained to provide district-wide teacher professional development; 2) a recruitment and training effort to place college students in classrooms as science partners in semester-long partnerships with teachers; 3) a teacher empowerment effort termed "participatory reform"; and 4) an inquiry-based curriculum with a kit distribution and refurbishment center. The main goals of the program were to provide college science students with an intensive teaching experience and to enhance teachers' skills in inquiry-based science instruction. Here, we describe some of the program's successes and challenges, focusing primarily on the impact on the classroom teachers and their science partners. Qualitative analyses of data collected from participants indicate that 1) teachers expressed greater self-confidence about teaching science than before the program and they spent more class time on the subject; and 2) the college students modified deficit-model negative assumptions about the children's science learning abilities to express more mature, positive views.

Providing Undergraduate Science Partners for Elementary Teachers: Benefits and Challenges

PubMed Central

Goebel, Camille A.; Umoja, Aminata

2009-01-01

Undergraduate college “science partners” provided content knowledge and a supportive atmosphere for K–5 teachers in a university–school professional development partnership program in science instruction. The Elementary Science Education Partners program, a Local Systemic Change initiative supported by the National Science Foundation, was composed of four major elements: 1) a cadre of mentor teachers trained to provide district-wide teacher professional development; 2) a recruitment and training effort to place college students in classrooms as science partners in semester-long partnerships with teachers; 3) a teacher empowerment effort termed “participatory reform”; and 4) an inquiry-based curriculum with a kit distribution and refurbishment center. The main goals of the program were to provide college science students with an intensive teaching experience and to enhance teachers' skills in inquiry-based science instruction. Here, we describe some of the program's successes and challenges, focusing primarily on the impact on the classroom teachers and their science partners. Qualitative analyses of data collected from participants indicate that 1) teachers expressed greater self-confidence about teaching science than before the program and they spent more class time on the subject; and 2) the college students modified deficit-model negative assumptions about the children's science learning abilities to express more mature, positive views. PMID:19723818

Improving science inquiry with elementary students of diverse backgrounds

NASA Astrophysics Data System (ADS)

Cuevas, Peggy; Lee, Okhee; Hart, Juliet; Deaktor, Rachael

2005-03-01

This study examined the impact of an inquiry-based instructional intervention on (a) children's ability to conduct science inquiry overall and to use specific skills in inquiry, and (b) narrowing the gaps in children's ability among demographic subgroups of students. The intervention consisted of instructional units, teacher workshops, and classroom practices. The study involved 25 third- and fourth-grade students from six elementary schools representing diverse linguistic and cultural groups. Quantitative results demonstrated that the intervention enhanced the inquiry ability of all students regardless of grade, achievement, gender, ethnicity, socioeconomic status (SES), home language, and English proficiency. Particularly, low-achieving, low-SES, and English for Speakers of Other Languages (ESOL) exited students made impressive gains. The study adds to the existing literature on designing learning environments that foster science inquiry of all elementary students.

Cognitive dissonance of science and religion in pre-service elementary school teachers

NASA Astrophysics Data System (ADS)

Malloy, Robert Earl, Sr.

Throughout history science and religion have been in conflict. Many of the theories of science do not agree with the religious beliefs of pre-service teachers. Those teachers who will be teaching in the science classroom, must be able to present science without prejudice of personal religious beliefs. Are pre-service teachers prepared for science/religion conflicts? How much conflict do pre-service teachers have between science and religion? This study suggests that pre-service teachers may have a high degree of conflict between science and religion, and that they have received no educational experience on how to deal with this conflict. Such conflict poses a potential problem when presenting science in the classroom, in that non-science information may not be separated from the science presented.

Elementary school children's science learning from school field trips

NASA Astrophysics Data System (ADS)

Glick, Marilyn Petty

This research examines the impact of classroom anchoring activities on elementary school students' science learning from a school field trip. Although there is prior research demonstrating that students can learn science from school field trips, most of this research is descriptive in nature and does not examine the conditions that enhance or facilitate such learning. The current study draws upon research in psychology and education to create an intervention that is designed to enhance what students learn from school science field trips. The intervention comprises of a set of "anchoring" activities that include: (1) Orientation to context, (2) Discussion to activate prior knowledge and generate questions, (3) Use of field notebooks during the field trip to record observations and answer questions generated prior to field trip, (4) Post-visit discussion of what was learned. The effects of the intervention are examined by comparing two groups of students: an intervention group which receives anchoring classroom activities related to their field trip and an equivalent control group which visits the same field trip site for the same duration but does not receive any anchoring classroom activities. Learning of target concepts in both groups was compared using objective pre and posttests. Additionally, a subset of students in each group were interviewed to obtain more detailed descriptive data on what children learned through their field trip.

Centering on Sea Life in the Classroom.

ERIC Educational Resources Information Center

Gruendike, Janis L.

1982-01-01

Describes an oceanography learning center for elementary/middle school students, focusing on use of games (review jeopardy), instructional tapes, flash cards, activity felt boards, picture puzzles, reading materials, science displays, and experiment stations. (JN)

Videomicroscopy and Improved Student Attitudes.

ERIC Educational Resources Information Center

Fedak, John; And Others

1990-01-01

The improvement in student attitudes as the result of the use of videomicroscopy in the science classroom at the elementary, secondary, and college levels is discussed. The results of published research studies are reviewed. (CW)

The Effects of Classroom Instructional Strategies on Science Achievement of Elementary-School Students in Japan: Findings from the Third International Mathematics and Science Study (TIMSS)

ERIC Educational Resources Information Center

House, J. Daniel

2006-01-01

This article deals with the Third International Mathematics and Science Study (TIMSS). TIMSS has provided a comprehensive assessment of educational contexts and mathematics and science achievement (National Research Council, 1999). The initial TIMSS assessment was conducted in 1995 (TIMSS 1995) and several studies have examined factors related to…

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.

How Elementary Teachers' Beliefs About the Nature of Science Mediate Implementing Prescribed Science Curricula in Their Classrooms

NASA Astrophysics Data System (ADS)

Giglio, Kathleen Rose Fitzgerald

This is an in depth study of two elementary school teachers, who are generalists because they teach multiple subjects to their classes, in addition to science, respectively in grade 3 and grade 6. The teachers taught and their students learned using a contemporary understanding of the nature of science (NOS), which they learned by actually doing science investigations, rather than being explicitly told about NOS (contrary to what some scholars claim). Neither teacher completed any formal/informal science training/experiences, especially connected to the construct NOS. Even though the teachers did not explicitly reference NOS in the classroom, their teaching about NOS was made possible through their implementation of the FOSS ( Full Option Science System) curriculum. Although their students enthusiastically demonstrated competence in both science process and content, as prescribed by the FOSS curriculum, the teachers' felt undermined by the state mandated assessments and the inclusion of student performance as a criterion for the state teacher evaluation system. This research was designed to answer the following questions: (1) What are elementary teachers' conceptions about NOS? (2) How are the teachers' NOS views manifested in their implementation of the FOSS program and their choices of instructional methods/materials? (3) What factors may have enhanced or hindered how the teachers sustained their NOS conceptions as they implemented the FOSS program? To explicate the relationship between teachers' views of NOS and the extent to which constructivist practices were employed in their science instruction, a multiple research methodology using grounded theory as the foundation and employing both quantitative and qualitative measures, was needed. Sources of quantitative data were written survey results using the Student Understanding of Science and Scientific Inquiry Questionnaire (SUSSI; Liang et al., 2008) Likert scale responses and constructed responses. Face validity was determined through correlation of teachers' NOS conceptions from their written responses with their verbal responses during semi-structured interviews. Sources of qualitative data were coding of field notes (audiotapes of interviews and classroom observations) and artifacts (instructional materials and student work). Following qualitative analysis, data were compared and validated through triagulation, and the results were summarized. The results indicate that teachers may develop contemporary NOS conceptions without explicit instruction and may fortify such perceptions in their students by teaching science using FOSS investigations without explicitly mentioning NOS (also contrary to what some scholars claim). These results have important implications for the successful implementation of the Next Generation Science Standards and future elementary science teacher education programs.

Intersections of life histories and science identities: the stories of three preservice elementary teachers

NASA Astrophysics Data System (ADS)

Avraamidou, Lucy

2016-03-01

Grounded within Connelly and Clandinin's conceptualization of teachers' professional identity in terms of 'stories to live by' and through a life-history lens, this multiple case study aimed to respond to the following questions: (a) How do three preservice elementary teachers view themselves as future science teachers? (b) How have the participants' life histories shaped their science identity trajectories? In order to characterize the participants' formation of science identities over time, various data regarding their life histories in relation to science were collected: science biographies, self-portraits, interviews, reflective journals, lesson plans, and classroom observations. The analysis of the data illustrated how the three participants' identities have been in formation from the early years of their lives and how various events, experiences, and interactions had shaped their identities through time and across contexts. These findings are discussed alongside implications for theory, specifically, identity and life-history intersections, for teacher preparation, and for research related to explorations of beginning elementary teachers' identity trajectories.

Square pegs in round holes: Montessori principals' perceptions of science education in Texas public schools

NASA Astrophysics Data System (ADS)

Pollock, Lindsey

The purpose of this phenomenological study was to examine the perceptions of Texas public Montessori school principals as instructional leaders in science. Twelve public Montessori school principals were interviewed for this study. Two research questions were used: How do public Montessori principals perceive Texas science standards in public Montessori Elementary classrooms? How do principals view their role as an instructional leader in elementary science related to teachers' effectiveness and student outcomes? Research question one resulted in the following themes: (a) aligning curricula to the Texas Essential Knowledge and Skills (TEKS), (b) engaging science instruction as integrated and hands-on lessons, (c) emphasizing required district and state assessments, and (d) incorporating traditional teaching methodologies to support Montessori instruction. Research question two yielded common themes: (a) balancing Montessori methodologies and philosophies in public school settings with competing demands, (b) monitoring assessment scores as the determination of student success, (c) working in collaboration to support teacher effectiveness, and (d) providing resources and support to teachers. Implications for Montessori practitioners: paradox of Montessori education in a public school setting, strong support for science in classrooms from the principal and a need for continued research around Montessori education in public school settings.

Cultivating characters (moral value) through internalization strategy in science classroom

NASA Astrophysics Data System (ADS)

Ibrahim, M.; Abadi

2018-01-01

It is still in a crucial debate that characters play an important learning outcome to be realized by design. So far, most people think that characters were reached as nurturance effect with the assumption that students who are knowledgeable and skillful will have good characters automatically. Lately, obtained evidence that this assumption is not true. Characters should be taught deliberately or by design. This study was designed to culture elementary school students’ characters through science classroom. The teaching-learning process was conducted to facilitate and bridge the students from the known (concrete images: Science phenomena) to the unknown (abstract ideas: characters: care, and tolerance. Characters were observed five weeks before and after the intervention. Data were analyzed from observation of 24 students in internalization strategy-based courses. Qualitative and quantitative data suggested that the internalization strategy that use of science phenomena to represent abstract ideas (characters) in science classroom positively cultivating characters.

Levels of use of an elementary school inquiry-based instructional innovation among a selected group of teacher participants in the Delaware Elementary Science Initiative

NASA Astrophysics Data System (ADS)

Bouchelle, Henry Ellsworth Wirt, III

Science education in Delaware's public elementary and middle schools has experienced much change in recent years as a result of the adoption of state standards and, in particular, the adoption by school districts of the Smithsonian/National Science Resources Council-sponsored inquiry-based instruction modules as part of the "Elementary Science Initiative." As part of this adoption process, each participating elementary teacher and middle school science teacher receives extensive training in the use of several discrete science kits. The trainings include reinforcement and development of content knowledge, in addition to the modeling of and practice with complementary pedagogy. One measure of the effectiveness of the science kit training process (and perhaps the Initiative itself) is the teachers' levels of use of the Initiative. The purpose of this study was to determine the participating teachers' use of the science kit innovation through the use of the Concerns-based Adoption Model Levels of Use Questionnaire. Eight K--5 elementary classroom teachers who had completed at least three science kit trainings participated. The results of this study indicate that on the Overall Level of Use Rating Scale, teachers who had completed training in at least three science kits generally scored at the Routine (IVA) level. All of the teachers, regardless of the wide range in the number of years of experience, had achieved the Mechanical Use level in Overall (III) LoU, and 6 of the 8 participants (75%) were operating at no less than the Refinement (IVA) Overall LoU level.

Sweet Science for ALL! Supporting Inquiry-Based Learning through M&Ms Investigation for English Language Learners

ERIC Educational Resources Information Center

Song, Youngjin; Higgins, Teresa; Harding-DeKam, Jenni

2014-01-01

This article describes a series of inquiry-based lessons that provide English language learners (ELLs) with opportunities to experience science and engineering practices with conceptual understanding as well as to develop their language proficiency in elementary classrooms. The four-lesson sequence models how various types of instructional…

Impact of Professional Development on Teacher Practice: Uncovering Connections

ERIC Educational Resources Information Center

Buczynski, Sandy; Hansen, C. Bobbi

2010-01-01

An Inquiry Learning Partnership (ILP) for professional development (PD) was formed between a university, science centre, and two urban school districts to offer 4-6th grade teachers specific science content and pedagogical techniques intended to integrate inquiry-based instruction in elementary classrooms. From pre/post content exams, PD surveys,…

Supporting Academic Language Development in Elementary Science: A Classroom Teaching Experiment

ERIC Educational Resources Information Center

Jung, Karl Gerhard

2017-01-01

Academic language is the language that students must engage in while participating in the teaching and learning that takes place in school (Schleppegrell, 2012) and science as a content area presents specific challenges and opportunities for students to engage with language (Buxton & Lee, 2014; Gee, 2005). In order for students to engage…

Case study of science teaching in an elementary school: Characteristics of an exemplary science teacher

NASA Astrophysics Data System (ADS)

Kao, Huey-Lien

Improving the quality of science teaching is one of the greatest concerns in recent science education reform efforts. Many science educators suggest that case studies of exemplary science teachers may provide guidance for these reform efforts. For this reason, the characteristics of exemplary science teaching practices have been identified in recent years. However, the literature lacks research exploring exemplary teacher beliefs about the nature of science and science pedagogy, the relationships between their beliefs and practices, or how outstanding teachers overcome difficulties in order to facilitate their students' science learning. In this study, Sam-Yu, an identified exemplary science teacher who teaches in an elementary school in Pintung, Taiwan, was the subject. An interpretative research design (Erickson, 1986) based on principles of naturalistic inquiry (Lincoln & Guba, 1985) was used. Both qualitative and quantitative methods were employed in this case study. The qualitative method involved conducting interviews with the teacher and students, observing classroom activities and analyzing the structure of the learning materials. The quantitative methods involved using the Learning Climate Inventory (LCI) (Lin, 1997) instrument to assess the learning environment of the exemplary science classroom. This study found that Sam-Yu had a blend of views on the nature of science and a varied knowledge about science pedagogy. Personal preferences, past experiences, and the national science curriculum all played important roles in the development and refinement of Sam-Yu's beliefs about science and pedagogy. Regarding his teaching practices, Sam-Yu provided the best learning experiences, as evidenced in both classroom observations and the survey results, for his students by using a variety of strategies. In addition, his classroom behaviors were highly associated with his beliefs about science and pedagogy. However, due to school-based and socio-cultural constraints, Sam-Yu could not always translate his beliefs about science and pedagogy into practice. Nevertheless, Sam-Yu's personal traits, support from colleagues and his school, and research played an influential role in helping him overcome constraints and evolve into an exemplary science teacher.

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.

Strengthening STEM Education through Community Partnerships

PubMed Central

Lopez, Colleen A.; Rocha, Jon; Chapman, Matthew; Rocha, Kathleen; Wallace, Stephanie; Baum, Steven; Lawler, Brian R.; Mothé, Bianca R.

2017-01-01

California State University San Marcos (CSUSM) and San Marcos Elementary Schools have established a partnership to offer a large-scale community service learning opportunity to enrich science curriculum for K-5 students. It provides an opportunity for science, technology, engineering, and math (STEM) majors to give back to the community, allowing them to experience teaching in an elementary classroom setting, in schools that lack the resources and science instructor specialization needed to instill consistent science curricula. CSUSM responded to this need for more STEM education by mobilizing its large STEM student body to design hands-on, interactive science lessons based on Next Generation Science Standards (NGSS). Since 2012, the program has reached out to over four thousand K-5 students, and assessment data have indicated an increase in STEM academic performance and interest. PMID:28725512

Strengthening STEM Education through Community Partnerships.

PubMed

Lopez, Colleen A; Rocha, Jon; Chapman, Matthew; Rocha, Kathleen; Wallace, Stephanie; Baum, Steven; Lawler, Brian R; Mothé, Bianca R

2016-01-01

California State University San Marcos (CSUSM) and San Marcos Elementary Schools have established a partnership to offer a large-scale community service learning opportunity to enrich science curriculum for K-5 students. It provides an opportunity for science, technology, engineering, and math (STEM) majors to give back to the community, allowing them to experience teaching in an elementary classroom setting, in schools that lack the resources and science instructor specialization needed to instill consistent science curricula. CSUSM responded to this need for more STEM education by mobilizing its large STEM student body to design hands-on, interactive science lessons based on Next Generation Science Standards (NGSS). Since 2012, the program has reached out to over four thousand K-5 students, and assessment data have indicated an increase in STEM academic performance and interest.

The Integration of English Language Development and Science Instruction in Elementary Classrooms

NASA Astrophysics Data System (ADS)

Zwiep, Susan Gomez; Straits, William J.; Stone, Kristin R.; Beltran, Dolores D.; Furtado, Leena

2011-12-01

This paper explores one district's attempt to implement a blended science and English Language Development (ELD) elementary program, designed to provide English language learners opportunities to develop proficiency in English through participation in inquiry-based science. This process resulted in blended program that utilized a combined science/ELD lesson plan format to structure and guide teachers' efforts to use science as the context for language development. Data, collected throughout the first 2 years of the program, include teacher-generated lesson plans, observation notes, and interviews with teachers and principals. The process by which the blended program was developed, the initial implementation of the program, the resulting science/ELD lesson plan format, and teachers' perceptions about the program and its impact on their students are described.

Conceptualizing RTI in 21st-Century Secondary Science Classrooms: Video Games' Potential to Provide Tiered Support and Progress Monitoring for Students with Learning Disabilities

ERIC Educational Resources Information Center

Marino, Matthew T.; Beecher, Constance C.

2010-01-01

Secondary schools across the United States are adopting response to intervention (RTI) as a means to identify students with learning disabilities (LD) and provide tiered instructional interventions that benefit all students. The majority of current RTI research focuses on students with reading difficulties in elementary school classrooms.…

Science Teachers to Ban Testing Harmful to Animals.

ERIC Educational Resources Information Center

Sun, Marjorie

1980-01-01

This article reports the adoption of new policies to restrict experiments on animals in the elementary or secondary school classroom. The controversy involving animal welfare groups is discussed as it relates to animal abuse by students. (SA)

Determinants of Benin elementary school science teachers' orientation toward inquiry-based instructional practices

NASA Astrophysics Data System (ADS)

Gado, Issaou

The Republic of Benin (West Africa) undertook a nationwide curriculum reform that put an emphasis on inquiry-based instructional practices. Little, if any, research has been conducted to explore factors that could be related to teachers' orientation toward inquiry instructional practices. The purpose of this research study was to investigate factors and concerns that determine Benin elementary school teachers' orientation toward the use of inquiry-based instruction in the teaching of science. The study followed a naturalistic inquiry methodology combining a correlational ex post facto design and an observational case-study design. The theory of Planned Behavior was the conceptual framework used to design the study. Two hundred (N = 200) elementary school teachers and three (n = 3) case study participants were purposively selected. Data was gathered via the Revised Science Attitude Scale (Thompson & Shrigley, 1986), the Science Teachers' Ideological Preference Scale (Jones & Harty, 1978), open-ended questions, interviews, and classroom observations using audiorecorders, videorecorders, and the researcher-contextualized version of the Observational System for the Analysis of Classroom Instruction (Hough, 1966). Qualitative and quantitative data provided a deeper understanding of participants' responses. Quantitative measures indicated that Benin elementary school teachers have positive attitudes toward school science, significant positive orientation toward both inquiry-based instruction and traditional non inquiry-based instruction, and higher orientation toward inquiry-based instruction than traditional non inquiry-based instruction. Attitude toward handling materials for investigations was found to significantly contribute to the prediction of participants' inquiry orientation. Qualitative analyses of participants' responses indicated that the expectations of educational leaders, individual motivation to comply with the program, a perceived control of the performance of inquiry-based activities, students' inquiry outcome expectancy or likelihood of occurrence in the classroom, the pedagogical structure of the program, and the student-centeredness of the program were potential motivational factors that could explain participants' orientation toward inquiry-based instruction. Four major concerns---lack of materials for teaching, lack of training in the process and strategy of inquiry, overloaded curriculum content, students' linguistic difficulties---were perceived obstacles in implementing inquiry-based instruction. Implications for transformative curriculum practices are discussed.

Creating an Equitable Classroom Environment: A Case Study of a Preservice Elementary Teacher Learning What It Means to "Do Inquiry"

ERIC Educational Resources Information Center

Villa, Elsa Q.; Baptiste, H. Prentice

2014-01-01

In this article, the authors present a case study of a preservice teacher who participated in a two-semester course sequence of elementary science and mathematics methods spanning one academic year. These two courses were taught by the first author and embedded a pedagogical approach grounded in inquiry methods. The purpose of this study was to…

Impact through Images: Exploring Student Understanding of Environmental Science through Integrated Place-Based Lessons in the Elementary Classroom

ERIC Educational Resources Information Center

Muthersbaugh, Debbie; Kern, Anne L.; Charvoz, Rebecca

2014-01-01

In the early 1800s, the U.S. President Thomas Jefferson assembled a team of explorers led by Meriwether Lewis and William Clark to forge a waterway connecting the Missouri River to the Pacific Ocean. How has this environment changed in 200 years and how do elementary students make sense of those changes? This study looks at the impact of…

Relationships among Prior Conceptual Knowledge, Metacognitive Awareness, Metacognitive Self-Management, Cognitive Style, Perception-Judgment Style, Attitude toward School Science, Self-Regulation, and Science Achievement in Grades 6-7 Students.

ERIC Educational Resources Information Center

Holden, Trudy G.; Yore, Larry D.

This study explores the learner dimension in learning biological science topics in five elementary school classrooms instructed by different teachers using a common course of study and outcome measures. Specifically, the study addressed the associations among conceptual, metacognitive, cognitive, stylistic, and affective characteristics and…

The roles of teachers' science talk in revealing language demands within diverse elementary school classrooms: a study of teaching heat and temperature in Singapore

NASA Astrophysics Data System (ADS)

Seah, Lay Hoon; Yore, Larry D.

2017-01-01

This study of three science teachers' lessons on heat and temperature seeks to characterise classroom talk that highlighted the ways language is used and to examine the nature of the language demands revealed in constructing, negotiating, arguing and communicating science ideas. The transcripts from the entire instructional units for these teachers' four culturally and linguistically diverse Grade 4 classes (10 years old) with English as the language of instruction constitute the data for this investigation. Analysis of these transcripts focused on teachers' talk that made explicit reference to the form or function of the language of science and led to the inductive development of the 'Attending to Language Demands in Science' analytical framework. This framework in turn revealed that the major foregrounding purposes of teachers' talk include labelling, explaining, differentiating, selecting and constructing. Further classification of the instances within these categories revealed the extensive and contextualised nature of the language demands. The results challenge the conventional assumption that basic literacy skills dominate over disciplinary literacy skills in primary school science. Potential uses of the analytical framework that could further expand our understanding of the forms, functions and demands of language used in elementary school science are also discussed.

Factors Affecting the Implementation of Argument in the Elementary Science Classroom. A Longitudinal Case Study

NASA Astrophysics Data System (ADS)

Martin, Anita M.; Hand, Brian

2009-01-01

This longitudinal case study describes the factors that affect an experienced teacher’s attempt to shift her pedagogical practices in order to implement embedded elements of argument into her science classroom. Research data was accumulated over 2 years through video recordings of science classes. The Reformed Teacher Observation Protocol (RTOP) is an instrument designed to quantify changes in classroom environments as related to reform as defined by the National Research Council ( National science education standards. Washington, DC: National Academy Press, 1996b) and the National Research Council ( Fulfilling the promise: Biology education in the nation’s schools, Washington, DC: National Academy Press, 1990) and was used to analyze videotaped science lessons. Analysis of the data shows that there was a significant shift in the areas of teacher questioning, and student voice. Several levels of subsequent analysis were completed related to teacher questioning and student voice. The data suggests a relationship between these areas and the implementation of scientific argument. Results indicate that the teacher moved from a traditional, teacher-centered, didactic teaching style to instructional practices that allowed the focus and direction of the lesson to be affected by student voice. This was accomplished by a change in teacher questioning that included a shift from factual recall to more divergent questioning patterns allowing for increased student voice. As student voice increased, students began to investigate ideas, make statements or claims and to support these claims with strong evidence. Finally, students were observed refuting claims in the form of rebuttals. This study informs professional development related to experienced teachers in that it highlights pedagogical issues involved in implementing embedded elements of argument in the elementary classroom.

Humor in Elementary Science: Development and Evaluation of Comic Strips about Sound

ERIC Educational Resources Information Center

Özdemir, Ertugrul

2017-01-01

Comic strips on newspapers, magazines and Internet are one of the most accessible materials that may be used in science classroom as instructional tool. However, it is sometimes difficult to find and adapt appropriate comic strips useful for instructional purposes, because most of them are irrelevant. The purpose of this study is to develop and…

Voices of Reform: Infusion of Standards-Based Mathematics and Science Teaching in an Urban District.

ERIC Educational Resources Information Center

Huinker, DeAnn; Coan, Cheryl; Posnanski, Tracy

This study examined the impact of a systemic reform initiative to implement standards-based mathematics and science teaching and learning in one urban school district, noting its effect on teachers, principals, students, and classroom practice. Participants were a sample of elementary and secondary schools involved in the Milwaukee Urban Systemic…

Modeling Augmented Reality Games with Preservice Elementary and Secondary Science Teachers

ERIC Educational Resources Information Center

Burton, Erin Peters; Frazier, Wendy; Annetta, Leonard; Lamb, Richard; Cheng, Rebecca; Chmiel, Margaret

2011-01-01

Cell phones are ever-present in daily life, yet vastly underused in the formal science classroom. The purpose of this study was to implement a novel learning tool on cell phones, Augmented Reality Games, and determine how the interaction influenced preservice teachers' content knowledge and self-efficacy of cell phone use in schools. Results show…

Learning through Teaching: A New Perspective on Entering a Discipline

ERIC Educational Resources Information Center

Elmendorf, Heidi G.

2006-01-01

In this essay, the author describes her experience with an experiential model of learning through teaching that gives college students the opportunity to use what they learn in the college classroom to develop curricula and then teach those curricula in an elementary school. Her specific experience was with a science course for non-science majors,…

Chemistry Teachers' Perceived Benefits and Challenges of Inquiry-Based Instruction in Inclusive Chemistry Classrooms

ERIC Educational Resources Information Center

Mumba, F.; Banda, A.; Chabalengula, V. M.

2015-01-01

Studies on inquiry-based instruction in inclusive science teaching have mainly focused on elementary and middle school levels. Little is known about inquiry-based instruction in high school inclusive science classes. Yet, such classes have become the norm in high schools, fulfilling the instructional needs of students with mild disabilities. This…

Explanation-Construction in Fourth-Grade Classrooms in Germany and the USA: A Cross-National Comparative Video Study

ERIC Educational Resources Information Center

Forbes, Cory; Lange, Kim; Möller, Kornelia; Biggers, Mandy; Laux, Mira; Zangori, Laura

2014-01-01

To help explain the differences in students' performance on internationally administered science assessments, cross-national, video-based observational studies have been advocated, but none have yet been conducted at the elementary level for science. The USA and Germany are two countries with large formal education systems whose students…

Nuclear Age Issues: A Teacher's Resource Guide for Kindergarten through Grade Twelve. Publication No. X-127.

ERIC Educational Resources Information Center

Los Angeles Unified School District, CA. Office of Instruction.

This teacher's resource guide is designed to facilitate the planning of science and history/social science classroom instruction concerning nuclear age issues for elementary and secondary students. The materials introduce this topic with an interdisciplinary approach to a broad range of nuclear topics. The booklet is divided into five sections.…

Problem-Based Learning in K-8 Mathematics and Science Education: A Literature Review

ERIC Educational Resources Information Center

Merritt, Joi; Lee, Mi Yeon; Rillero, Peter; Kinach, Barbara M.

2017-01-01

This systematic literature review was conducted to explore the effectiveness of problem-based and project-based learning (PBL) implemented with students in early elementary to grade 8 (ages 3-14) in mathematics and science classrooms. Nine studies met the following inclusion criteria: (a) focus on PBL, (b) experimental study, (c) kindergarten to…

Professional development that works: Impacting elementary science teachers' learning and practice during the implementation of an inquiry-oriented science curriculum

NASA Astrophysics Data System (ADS)

Schlang, Jodi A.

One of the most important factors for developing science literacy for all students is teacher knowledge of science content and pedagogy. This study was designed to evaluate the impact of professional development on teacher learning, changes in teacher behavior, and student learning. The goal was to develop a deeper understanding of how the Elementary Science Teaching and Learning (ESTL) program affected teacher learning and changed teacher behavior in the classroom. This study also provided insight into the effect of the ESTL program on student learning during the first year of the professional development. This mixed method case study was used to examine the link between participation in the ESTL program, teacher learning, changes in teacher classroom behavior, and student learning. Qualitative observations and videotaped sessions provided rich description of the professional development and implementation of inquiry-oriented strategies in participant's classrooms. Artifacts and interviews provided evidence of teacher learning and changes in teacher behaviors. Quantitative data included self-report survey data examining changes in teacher behavior and the measurement of student learning used both science district assessment scores and CSAP writing scores. Key findings include: (1) teacher learning was reported in the areas of questioning and scope and sequence of the curriculum occurred; (2) statistically significant changes teacher behavior were reported and were noted in teacher interviews; (3) participation in the ESTL program did not positively impact student learning; (4) unanticipated findings include the role of camaraderie in professional development and the role of additional training in teacher's confidence in both their own teaching and in helping others; and, (5) teacher's perceptions identified the role of inquiry-based science curriculum as providing the rich experiences necessary for improved student writing. Overall participation in the ESTL program increased the implementation of inquiry-oriented strategies and it strengthened teacher inquiry-based science teaching in the classroom even though no increases were found in student test scores.

Finding science is fun in a 'Magic Show of Light' from Optical Demonstrations on an Overhead Projector for elementary school students

NASA Astrophysics Data System (ADS)

Lones, Joe J.; Maltseva, Nadezhda K.; Peterson, Kurt N.

2007-09-01

We seek methods of stimulating young school children to develop an interest in science and engineering through a natural curiosity for the reaction of light. Science learning now begins fully at middle school. Reading skills develop with activity at home and progress through the elementary school curriculum, and in a like manner, a curious interest in science also should begin at that stage of life. Within the ranks of educators, knowledge of optical science needs to be presented to elementary school students in an entertaining manner. One such program used by the authors is Doug Goodman's Optics Demonstrations With the Overhead Projector, co-published by and available from OSA (Optical Society of America) and SPIE-The International Society of Optical Engineering. These demonstrations have been presented in middle and high schools; however, as a special approach, the authors have developed selected Goodman demonstrations as a "Magic Show of Light" for elementary schools. Teachers in the U.S. are overloaded with classroom instruction specifically targeted at improving reading and math scores on the Standard Achievement Test (SAT); therefore, science is getting "short changed" in the education system. For the sake of our future, industry volunteers must come forward to promote interest in science beginning with K-6.

A study of elementary teachers' conceptions of nature of science and their beliefs about the developmental appropriateness and importance of nature of science throughout a professional development program

NASA Astrophysics Data System (ADS)

Adibelli, Elif

This qualitative study aimed to explore the changes in elementary science teachers' conceptions of nature of science (NOS) and their beliefs about the developmental appropriateness and importance of NOS after participating in an academic, year-long professional development program (PDP) as well as the factors facilitating these changes. The PDP consisted of two phases. In the first phase, the participants received NOS training designed with an explicit-reflective instructional approach. In the second phase, the participants implemented several NOS training activities in their classrooms. Four elementary science teachers who volunteered and completed all components of the PDP (i.e., the NOS training and the NOS teaching) comprised the participants of the present study. A multiple-embedded case study design was employed to explore the changes in the elementary science teachers' conceptions of NOS and their beliefs about the developmental appropriateness and importance of NOS. The study data were collected from multiple sources. The primary data sources included (a) Views of Nature of Science Elementary School Version 2 (VNOS-D2) questionnaire (Lederman & Khishfe, 2002), (b) Ideas about Science for Early Elementary (K-4) Students questionnaire (Sweeney, 2010), and (c) follow-up semi-structured interviews. The secondary data sources included videotaping of meetings with teachers, reflective field notes, and artifacts produced by teachers and their students. Data were analyzed using Yin's (1994, 2003) analytic tactics of pattern matching, explanation building, and cross-case synthesis. The findings of the study revealed that the elementary science teachers showed gradual, but substantial changes in their conceptions, and beliefs about the developmental appropriateness and importance of the NOS aspects over the course of participation in the PDP. Moreover, the participants identified nine components in the PDP that facilitated these changes in their conceptions, and beliefs about the developmental appropriateness and importance of the NOS aspects. These components were (a) specific focus on the NOS content, (b) participation in hands-on activities on NOS, (c) educational readings on NOS, (d) multiple types/ formats of reflection, (e) multiple exposure to the NOS content, (f) structural consistency in the presentation of the NOS content, (g) the evaluation of secondary student data, (h) the analysis of national and state science standards in terms of NOS, and (i) the implementation of the NOS activities in the classroom. Based on the findings of this study, it may be concluded that explicit-reflective NOS instruction coupled with NOS teaching is sufficient to evolve and crystallize teachers' conceptions and beliefs about the developmental appropriateness and importance of the NOS aspects.

Implementation of Teacher Consultation and Coaching in Urban Schools: A Mixed Method Study

PubMed Central

Cappella, Elise; Jackson, Daisy R.; Kim, Ha Yeon; Bilal, Caroline; Holland, Sibyl; Atkins, Marc S.

2015-01-01

Guided by implementation science scholarship and school mental health research, the current study uses qualitative and quantitative data to illuminate the barriers, opportunities, and processes underlying the implementation of a teacher consultation and coaching model (BRIDGE) in urban elementary schools. Data come from five public elementary schools, 12 school mental health staff (BRIDGE consultants), and 18 teachers participating in a classroom-randomized trial of BRIDGE. Findings from directed content analysis of teacher focus group and interview data suggest that aspects of the BRIDGE intervention model, school organization and classroom contexts, and teachers/consultants and their relationship were relevant as implementation facilitators or barriers. In addition, case study analysis of intervention materials and fidelity tools from classrooms with moderate-to-high dosage and adherence suggest variation in consultation and coaching by initial level of observed classroom need. Results illuminate the need for implementation research to extend beyond simple indicators of fidelity to the multiple systems and variation in processes at play across levels of the implementation context. PMID:27293490

Understanding the Development of a Hybrid Practice of Inquiry-Based Science Instruction and Language Development: A Case Study of One Teacher's Journey through Reflections on Classroom Practice

ERIC Educational Resources Information Center

Capitelli, Sarah; Hooper, Paula; Rankin, Lynn; Austin, Marilyn; Caven, Gennifer

2016-01-01

This qualitative case study looks closely at an elementary teacher who participated in professional development experiences that helped her develop a hybrid practice of using inquiry-based science to teach both science content and English language development (ELD) to her students, many of whom are English language learners (ELLs). This case study…

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

NASA Astrophysics Data System (ADS)

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

2007-12-01

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

Space Science in the Kindergarten Classroom and Beyond

NASA Astrophysics Data System (ADS)

Bonett, D.

2000-12-01

With the advent of probes to our closest planet Mars and the multi-national construction of Earth's first International Space Station, it is not presumptive to introduce 5 year old school children to the space sciences. K. E. Little Elementary School is located in the community of Bacliff, Texas. It is the largest elementary school (950 students) in the Dickinson Independent School District. K. E. Little is a Title 1 school with a multi-ethnic student population. It's close proximity to the Johnson Space Center and the Lunar and Planetary Institute provide ample instructional support and material. Last fall, two kindergarten classes received space science instruction. Both were class sizes of 19 with one class predominantly children of Vietnamese immigrants. Our goal was to create curiosity and awareness through a year-long integrated space science program of instruction. Accurate information of the space sciences was conveyed through sources i.e. books and videos, as well as conventional song, movement, and artistic expression. Videotaping and photographs replaced traditional anecdotal records. Samples of student work were compiled for classroom and school display. This year, two fifth grade classes will receive space science instruction using the Jason Project XII curriculum. Students will engage in a year-long exploration of the Hawaiian Islands. Information will be conveyed via internet and live video presentations as well as traditional sources i.e. books and videos, as well as song, movement, and artistic expression. Comparison of volcanic activity in Hawaii to volcanoes on other planets will be one of several interplanetary correlations. Samples of student work will be compiled for classroom, school, and community display.

Investigating the Impact of NGSS-Aligned Professional Development on PreK-3 Teachers' Science Content Knowledge and Pedagogy

NASA Astrophysics Data System (ADS)

Tuttle, Nicole; Kaderavek, Joan N.; Molitor, Scott; Czerniak, Charlene M.; Johnson-Whitt, Eugenia; Bloomquist, Debra; Namatovu, Winnifred; Wilson, Grant

2016-11-01

This pilot study investigates the impact of a 2-week professional development Summer Institute on PK-3 teachers' knowledge and practices. This Summer Institute is a component of [program], a large-scale early-childhood science project that aims to transform PK-3 science teaching. The mixed-methods study examined concept maps, lesson plans, and classroom observations to measure possible changes in PK-3 teachers' science content knowledge and classroom practice from 11 teachers who attended the 2014 Summer Institute. Analysis of the concept maps demonstrated statistically significant growth in teachers' science content knowledge. Analysis of teachers' lesson plans demonstrated that the teachers could design high quality science inquiry lessons aligned to the Next Generation Science Standards following the professional development. Finally, examination of teachers' pre- and post-Summer Institute videotaped inquiry lessons showed evidence that teachers were incorporating new inquiry practices into their teaching, especially regarding classroom discourse. Our results suggest that an immersive inquiry experience is effective at beginning a shift towards reform-aligned science and engineering instruction but that early elementary educators require additional support for full mastery.

Trends in teachers' recommendations for changing elementary and junior-high school science programs

NASA Astrophysics Data System (ADS)

Stronck, David R.

Since 1978 many studies have called for changes in the practices of science teaching. These changes in instruction will occur only when the teachers decide to change their practices. This study uses surveys to consider the question of what were the trends in the teachers' recommendations for changes in elementary and junior-high school science programs between the years of 1978 and 1982. Large samples of teachers in British Columbia, Canada, responded anonymously to questionnaires in these years: 3040 teachers in 1978 and 1631 in 1982, with return rates ranging from 77.5% to 85%. These teachers described themselves as shifting their classroom practices toward ones that emphasize passive learning and memorization. The British Columbia Science Assessments recommend more inservice programs to stop this trend. There were very few differences in the teachers' recommendations for changes in the schools. The elementary-school teachers had major changes in their rankings of only two activities: they increased their ranking of activity-centered learning and reduced their ranking of outdoor education.

Delivering Hubble Discoveries to the Classroom

NASA Astrophysics Data System (ADS)

Eisenhamer, B.; Villard, R.; Weaver, D.; Cordes, K.; Knisely, L.

2013-04-01

Today's classrooms are significantly influenced by current news events, delivered instantly into the classroom via the Internet. Educators are challenged daily to transform these events into student learning opportunities. In the case of space science, current news events may be the only chance for educators and students to explore the marvels of the Universe. Inspired by these circumstances, the education and news teams developed the Star Witness News science content reading series. These online news stories (also available in downloadable PDF format) mirror the content of Hubble press releases and are designed for upper elementary and middle school level readers to enjoy. Educators can use Star Witness News stories to reinforce students' reading skills while exposing students to the latest Hubble discoveries.

Student-Generated Scientific Inquiry for Elementary Education Undergraduates: Course Development, Outcomes and Implications

ERIC Educational Resources Information Center

Salter, Irene; Atkins, Leslie

2013-01-01

While some researchers have argued for science classrooms that embrace open-inquiry by engaging students in doing science as scientists do (cf. National Research Council [NRC] 1996; Driver et al. in "Sci Educ" 84:287-312, 2000; Windschitl et al. in "Sci Educ" 87(1):112-143, 2008), others have argued that open-inquiry is impractical, ineffective,…

Girls In STEM White Coat Ceremony 2017

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

Neal, Kelsey Ann Elizabeth; Coronado, Elizabeth

Like working with children? Who doesn’t? Girls in STEM has myriad opportunities for you to help local Title 1 students in the classroom. You can choose to volunteer from the Lab, from the Bradbury Science Museum, or to travel to Abiquiu Elementary School (car provided) to do a science demonstration. The best part is that you can use the Community Outreach Partnership Code.

Distributed Cognition in a Sixth-Grade Classroom: An Attempt to Overcome Alternative Conceptions about Light and Color

ERIC Educational Resources Information Center

Valanides, Nicos; Angeli, Charoula

2008-01-01

In this study, we discuss the scaffolded design of ODRES (Observe, Discuss, and Reason with Evidence in Science), a computer tool that was designed to be used with elementary school children in science, and report on the effects of learning with ODRES on students' conceptual understandings about light, color, and vision. Succinctly, dyads of…

Using Video Clips to Implement Multicultural Topics of Science and Nature of Science into a Biological Content Course for Pre-Service Teachers--An Action Research Project

ERIC Educational Resources Information Center

Pennock, Phyllis Haugabook; Schwartz, Renee' S.

2012-01-01

This action research project describes the methods an African-American female instructor used when introducing biology-related video clips with a multicultural component to predominantly white pre-service elementary students. Studies show that introducing multiculturalism into classrooms is crucial for students and teachers. Multicultural…

Creating the Future through Research. Proceedings of the National Agricultural Education Research Meeting (Las Vegas, Nevada, December 10, 1997). Volume XXIV.

ERIC Educational Resources Information Center

Connors, James J., Ed.; Murphy, Tim H., Ed.

The following are among the 51 papers and 7 poster sessions included: "Agriculture in the Classroom" (Hillison); "Effects of an Elementary Agri-Science Program on Student Perceptions of and Performance in Agriculture and Science" (Howell); "Current Status of Preservice Teacher Education Programs in Agriculture" (Swortzel); "Problems and Challenges…

Fifth Graders' Learning about Simple Machines through Engineering Design-Based Instruction Using LEGO™ Materials

ERIC Educational Resources Information Center

Marulcu, Ismail; Barnett, Mike

2013-01-01

This study is part of a 5-year National Science Foundation-funded project, Transforming Elementary Science Learning Through LEGO™ Engineering Design. In this study, we report on the successes and challenges of implementing an engineering design-based and LEGO™-oriented unit in an urban classroom setting and we focus on the impact of the unit on…

Testing the Theory of Successful Intelligence in Teaching Grade 4 Language Arts, Mathematics, and Science

ERIC Educational Resources Information Center

Sternberg, Robert J.; Jarvin, Linda; Birney, Damian P.; Naples, Adam; Stemler, Steven E.; Newman, Tina; Otterbach, Renate; Parish, Carolyn; Randi, Judy; Grigorenko, Elena L.

2014-01-01

This study addressed whether prior successes with educational interventions grounded in the theory of successful intelligence could be replicated on a larger scale as the primary basis for instruction in language arts, mathematics, and science. A total of 7,702 4th-grade students in the United States, drawn from 223 elementary school classrooms in…

Textbooks vs. techbooks: Effectiveness of digital textbooks on elementary student motivation for learning

NASA Astrophysics Data System (ADS)

Oman, Auna

This action research project investigated fourth grade students¡¦ motivation to learn science using a digital science techbook. Participants in the study included 29 fourth grade students in two different classrooms. One classroom of 16 students used a digital science techbook to learn science while the other classroom of 13 students used a traditional paper science textbook to learn science. Students in both classrooms answered five sets of questions regarding their experience using a digital science techbook and a paper science techbook to understand science, find science information, solve science problems, learn science, and assess learning science was fun. Results were compiled and coded based on positive and negative responses to conditions. A chi-square was used to analyze the ordinal data. Overall differences between techbooks vs. textbook were significant, X2 (1, N = 29) = 23.84, p = .000, justifying further examination of individual survey items. Three items had statistically significant difference for finding science information, solving science problems, and learning science. A gender difference was also found in one item. Females preferred to use paper science textbooks to understand science, while males preferred digital techbooks to learn science. The fourth graders in this study indicated that digital techbooks were a powerful learning tool for increasing interest, excitement and learning science. Even though students reported paper science textbooks as easy to use, they found using digital science techbooks a far more appealing way to learn science.

Linking Science and Language Arts: A Review of the Literature Which Compares Integrated Versus Non-integrated Approaches

NASA Astrophysics Data System (ADS)

Bradbury, Leslie U.

2014-06-01

The purpose of this paper is to review the literature published during the last 20 years that investigates the impact of approaches that describe themselves as integrating science and language arts on student learning and/or attitude at the elementary level. The majority of papers report that integrated approaches led to greater student achievement in science and language arts across elementary grade levels. Additionally, integrated approaches facilitate improved attitudes toward both science and reading. The second section of the findings provides an overview of the types of pedagogical approaches used in the classrooms described in the studies. At all grade levels, teachers linked a variety of strategies including read-alouds, independent reading, at home reading, and writing in various genres that connected hands-on science activities to language arts skills.

Project science inquiry: An exploration of elementary teachers' beliefs and perceptions about science teaching and learning

NASA Astrophysics Data System (ADS)

Wilcox, Dawn Renee

This dissertation examined elementary teachers' beliefs and perceptions of effective science instruction and documents how these teachers interpret and implement a model for Inquiry-Based (I-B) science in their classrooms. The study chronicles a group of teachers working in a large public school division and documents how these teachers interpret and implement reform-based science methods after participating in a professional development course on I-B science methods administered by the researcher. I-B science teaching and its implementation is discussed as an example of one potential method to address the current call for national education reform to meet the increasing needs of all students to achieve scientific literacy and the role of teachers in that effort. The conviction in science reform efforts is that all students are able to learn science and consequently must be given the crucial opportunities in the right environment that permits optimal science learning in our nation's schools. Following this group of teachers as they attempted to deliver I-B science teaching revealed challenges elementary science teachers face and the professional supports necessary for them to effectively meet science standards. This dissertation serves as partial fulfillment of the requirements for the degree of Doctor of Philosophy in Education at George Mason University.

Exploration of the assessment practices of elementary teachers using science kits

NASA Astrophysics Data System (ADS)

Scribner-Maclean, Michelle

The purpose of the study was to determine the assessment literacy levels of elementary teachers who are experienced science kit users compared to those who are novice users as well as to compare assessment literacy levels of kit users to non kit users. Further, the study explored how teachers used assessment instruments in a classroom setting during kit-based science lessons. The study consisted of two parts. The population for Part One of this study was 47 elementary teachers from four communities in Northeastern Massachusetts who used Science, Technology, and Children (STC) kits for their classroom science instruction. Part Two of this study was conducted with four elementary teachers, two experienced kit users and two novice kit users, who were selected by their administrators. Data were collected for Part One of this study by use of the Teacher Assessment Questionnaire (TAQ), developed by Plake and Impara (1990), which provided a description of the assessment literacy levels of teachers. The assessment literacy levels of experienced kit users were compared to novice kit users by the t-Test for independent means. The assessment literacy levels of kit users and non kit users were also compared by use of the t-Test for independent means. For Part Two, classroom observations and teacher interviews were audio taped and transcribed. Each of these four teachers were also given the TAQ. Data for Part Two of the study were categorized and coded by Whittington's (1990) assessment literacy skills which are based upon the Standards for Teacher Competency of Educational Assessment of Students (STCEAS). Instances in which these skills occurred during classroom observations and pre- and post-lesson interviews were tabulated to create an overall picture of assessment literacy for each of the four teachers. The findings for Parts One and Two of this study indicate that there were differences in the assessment literacy scores for kit users and non kit users only for Standard Two: Developing Assessment Methods Appropriate for Instructional Decisions and Standard Seven: Recognizing Unethical, Illegal, and Otherwise Inappropriate Assessment Methods a significant difference between the assessment literacy scores of kit users and non kit users. There were no differences between novice and experienced kit users. Nor were there a highly significant overall difference between the skills displayed in the classrooms of experienced and novice kit users. Part, Two of this study further indicates that, although teachers correctly answered the majority of the items on the TAQ, observations of classroom practice did not show evidence that teachers demonstrate understanding of assessment on a regular basis. The assessment reform movement puts strong emphasis on the quality of assessment instruments as well the knowledge of those who use assessment. Effective assessment is strongly linked to effective overall teaching. Science curriculum that has a strong content base cannot help increase scientific literacy without a strong assessment component administered by teachers and administrators who are competent assessors. This study makes a case for schools which introduce new science curriculum units to provide educators with on-going training in assessment as well as in use of the curriculum. The evidence provided by this study indicates that experience using the assessments in kits is not enough to enable teachers to become assessment literate.

An evaluation of meaningful learning in a high school chemistry course

NASA Astrophysics Data System (ADS)

Bross, April J.

This study utilized an action research methodology to examine students' understandings of science knowledge, and meaningful learning using the SLD (Science Lecture Demonstration) and laboratory instructional method in a high school chemistry classroom. This method was a modification of the Science Lecture Demonstration Method as developed by Majerich and Schmuckler (2004, in press), the modification due to the addition of a laboratory component. The participants in this study represented a convenience sample which included one class of twenty-two, middle to high socio-economic status students (Mean family income over $75,000/year in 2005 U.S. dollars) in an honors chemistry course at a public high school in the state of New Jersey. These participants included nine girls and thirteen boys. The results of this study indicated what the students' understandings of science knowledge were, how the understandings differed among students, and to what extent those understandings were indicative of meaningful learning. These results were obtained by careful analysis of student generated concept maps, narratives from demonstration quizzes, laboratory reports, and test questions, as well as a teacher/researcher reflection upon the classroom experience. A simple taxonomy for analyzing students' understandings of science knowledge was developed, based upon the work of Majerich (2004). Findings indicated that the students' understanding of science knowledge, as well as the extent of meaningful learning that occurs in the chemistry classroom may be influenced by the roles of: explicit directions, pre-existing knowledge from elementary and middle school science classes, using examples vs. non-examples, macroscopic vs. microscopic views of nature, time for reflection, and everyday vs. scientific language. Results obtained from high school student responses confirmed Novak's observation of elementary students' lack of differentiation between the terms vapor and gas (Novak, 1998).

The Six-Legged Subject: A Survey of Secondary Science Teachers’ Incorporation of Insects into U.S. Life Science Instruction

PubMed Central

Ingram, Erin

2018-01-01

To improve students’ understanding and appreciation of insects, entomology education efforts have supported insect incorporation in formal education settings. While several studies have explored student ideas about insects and the incorporation of insects in elementary and middle school classrooms, the topic of how and why insects are incorporated in secondary science classrooms remains relatively unexplored. Using survey research methods, this study addresses the gap in the literature by (1) describing in-service secondary science teachers’ incorporation of insects in science classrooms; (2) identifying factors that support or deter insect incorporation and (3) identifying teachers’ preferred resources to support future entomology education efforts. Findings indicate that our sample of U.S. secondary science teachers commonly incorporate various insects in their classrooms, but that incorporation is infrequent throughout the academic year. Insect-related lesson plans are commonly used and often self-created to meet teachers’ need for standards-aligned curriculum materials. Obstacles to insect incorporation include a perceived lack of alignment of insect education materials to state or national science standards and a lack of time and professional training to teach about insects. Recommendations are provided for entomology and science education organizations to support teachers in overcoming these obstacles. PMID:29538297

The Six-Legged Subject: A Survey of Secondary Science Teachers' Incorporation of Insects into U.S. Life Science Instruction.

PubMed

Ingram, Erin; Golick, Douglas

2018-03-14

To improve students' understanding and appreciation of insects, entomology education efforts have supported insect incorporation in formal education settings. While several studies have explored student ideas about insects and the incorporation of insects in elementary and middle school classrooms, the topic of how and why insects are incorporated in secondary science classrooms remains relatively unexplored. Using survey research methods, this study addresses the gap in the literature by (1) describing in-service secondary science teachers' incorporation of insects in science classrooms; (2) identifying factors that support or deter insect incorporation and (3) identifying teachers' preferred resources to support future entomology education efforts. Findings indicate that our sample of U.S. secondary science teachers commonly incorporate various insects in their classrooms, but that incorporation is infrequent throughout the academic year. Insect-related lesson plans are commonly used and often self-created to meet teachers' need for standards-aligned curriculum materials. Obstacles to insect incorporation include a perceived lack of alignment of insect education materials to state or national science standards and a lack of time and professional training to teach about insects. Recommendations are provided for entomology and science education organizations to support teachers in overcoming these obstacles.

Using food as a tool to teach science to 3 grade students in Appalachian Ohio.

PubMed

Duffrin, Melani W; Hovland, Jana; Carraway-Stage, Virginia; McLeod, Sara; Duffrin, Christopher; Phillips, Sharon; Rivera, David; Saum, Diana; Johanson, George; Graham, Annette; Lee, Tammy; Bosse, Michael; Berryman, Darlene

2010-04-01

The Food, Math, and Science Teaching Enhancement Resource (FoodMASTER) Initiative is a compilation of programs aimed at using food as a tool to teach mathematics and science. In 2007-2008, a foods curriculum developed by professionals in nutrition and education was implemented in 10 3(rd)-grade classrooms in Appalachian Ohio; teachers in these classrooms implemented 45 hands-on foods activities that covered 10 food topics. Subjects included measurement; food safety; vegetables; fruits; milk and cheese; meat, poultry, and fish; eggs; fats; grains; and meal management. Students in four other classrooms served as the control group. Mainstream 3(rd)-grade students were targeted because of their receptiveness to the subject matter, science standards for upper elementary grades, and testing that the students would undergo in 4(th) grade. Teachers and students alike reported that the hands-on FoodMASTER curriculum experience was worthwhile and enjoyable. Our initial classroom observation indicated that the majority of students, girls and boys included, were very excited about the activities, became increasingly interested in the subject matter of food, and were able to conduct scientific observations.

Instructional strategies in science classrooms of specialized secondary schools for the gifted

NASA Astrophysics Data System (ADS)

Poland, Donna Lorraine

This study examined the extent to which science teachers in Academic Year Governor's Schools were adhering to the national standards for suggested science instruction and providing an appropriate learning environment for gifted learners. The study asked 13 directors, 54 instructors of advanced science courses, and 1190 students of advanced science courses in 13 Academic Year Governor's Schools in Virginia to respond to researcher-developed surveys and to participate in classroom observations. The surveys and classroom observations collected demographic data as well as instructors' and students' perceptions of the use of various instructional strategies related to national science reform and gifted education recommendations. Chi-square analyses were used to ascertain significant differences between instructors' and students' perceptions. Findings indicated that instructors of advanced science classes in secondary schools for the gifted are implementing nationally recognized gifted education and science education instructional strategies with less frequency than desired. Both students and instructors concur that these strategies are being implemented in the classroom setting, and both concur as to the frequency with which the implementation occurs. There was no significant difference between instructors' and students' perceptions of the frequency of implementation of instructional strategies. Unfortunately, there was not a single strategy that students and teachers felt was being implemented on a weekly or daily basis across 90% of the sampled classrooms. Staff development in gifted education was found to be minimal as an ongoing practice. While this study offers some insights into the frequency of strategy usage, the study needs more classroom observations to support findings; an area of needed future research. While this study was conducted at the secondary level, research into instructional practices at the middle school and elementary school gifted science classroom settings would be appropriate and warranted.

Iteration in Early-Elementary Engineering Design

NASA Astrophysics Data System (ADS)

McFarland Kendall, Amber Leigh

K-12 standards and curricula are beginning to include engineering design as a key practice within Science Technology Engineering and Mathematics (STEM) education. However, there is little research on how the youngest students engage in engineering design within the elementary classroom. This dissertation focuses on iteration as an essential aspect of engineering design, and because research at the college and professional level suggests iteration improves the designer's understanding of problems and the quality of design solutions. My research presents qualitative case studies of students in kindergarten and third-grade as they engage in classroom engineering design challenges which integrate with traditional curricula standards in mathematics, science, and literature. I discuss my results through the lens of activity theory, emphasizing practices, goals, and mediating resources. Through three chapters, I provide insight into how early-elementary students iterate upon their designs by characterizing the ways in which lesson design impacts testing and revision, by analyzing the plan-driven and experimentation-driven approaches that student groups use when solving engineering design challenges, and by investigating how students attend to constraints within the challenge. I connect these findings to teacher practices and curriculum design in order to suggest methods of promoting iteration within open-ended, classroom-based engineering design challenges. This dissertation contributes to the field of engineering education by providing evidence of productive engineering practices in young students and support for the value of engineering design challenges in developing students' participation and agency in these practices.

Student Leadership Education in Elementary Classrooms

ERIC Educational Resources Information Center

Hess, Lindsay

2010-01-01

As I began my career as a teacher, I assumed leadership education would naturally be integrated into the elementary classroom curriculum because I was intrigued by this topic. However, as I spent more time in the classroom I quickly realized leadership skills were not part of regular classroom learning or practice for elementary age students. I…

Making Earth Science Relevant in the K-8 Classroom. The Development of an Instructional Soils Module for Pre-Service Elementary Teachers Using the Next Generation Science Standards

NASA Astrophysics Data System (ADS)

Baldwin, K. A.; Hauge, R.; Dechaine, J. M.; Varrella, G.; Egger, A. E.

2013-12-01

The development and adoption of the Next Generation Science Standards (NGSS) raises a challenge in teacher preparation: few current teacher preparation programs prepare students to teach science the way it is presented in the NGSS, which emphasize systems thinking, interdisciplinary science, and deep engagement in the scientific process. In addition, the NGSS include more geoscience concepts and methods than previous standards, yet this is a topic area in which most college students are traditionally underprepared. Although nationwide, programmatic reform is needed, there are a few targets where relatively small, course-level changes can have a large effect. One of these targets is the 'science methods' course for pre-service elementary teachers, a requirement in virtually all teacher preparation programs. Since many elementary schools, both locally and across the country, have adopted a kit based science curriculum, examining kits is often a part of a science methods course. Unfortunately, solely relying on a kit based curriculum may leave gaps in science content curriculum as one prepares teachers to meet the NGSS. Moreover, kits developed at the national level often fall short in connecting geoscientific content to the locally relevant societal issues that engage students. This highlights the need to train pre-service elementary teachers to supplement kit curriculum with inquiry based geoscience investigations that consider relevant societal issues, promote systems thinking and incorporate connections between earth, life, and physical systems. We are developing a module that teaches geoscience concepts in the context of locally relevant societal issues while modeling effective pedagogy for pre-service elementary teachers. Specifically, we focus on soils, an interdisciplinary topic relevant to multiple geoscience-related societal grand challenges (e.g., water, food) that is difficult to engage students in. Module development is funded through InTeGrate, NSF's STEP Center in the geosciences. The module goals are: 1) Pre-service teachers will apply classification methods, testing procedures and interdisciplinary systems thinking to analyze and evaluate a relevant societal issue in the context of soils, 2) Pre-service teachers will design, develop, and facilitate a standards-based K-8 soils unit, incorporating a relevant broader societal issue that applies authentic geoscientific data, and incorporates geoscientific habits of mind. In addition, pre-service teachers will look toward the NGSS and align activities with content standards, systems thinking, and science and engineering practices. This poster will provide an overview of module development to date as well as a summary of pre-semester survey results indicating pre-service elementary teachers' ideas (beliefs, attitudes, preconceptions, and content knowledge) about teaching soils, and making science relevant in a K-8 classroom.

The attitudinal and cognitive effects of interdisciplinary collaboration on elementary pre-service teachers development of biological science related lesson plans

NASA Astrophysics Data System (ADS)

Mills, Jada Jamerson

There is a need for STEM (science, technology, engineering, and mathematics) education to be taught effectively in elementary schools. In order to achieve this, teacher preparation programs should graduate confident, content strong teachers to convey knowledge to elementary students. This study used interdisciplinary collaboration between the School of Education and the College of Liberal Arts through a Learning-by-Teaching method (LdL): Lernen durch Lernen in German. Pre-service teacher (PST) achievement levels of understanding science concepts based on pretest and posttest data, quality of lesson plans developed, and enjoyment of the class based on the collaboration with science students. The PSTs enrolled in two treatment sections of EDEL 404: Science in the Elementary Classroom collaborated with science students enrolled in BISC 327: Introductory Neuroscience to enhance their science skills and create case-based lesson plans on neurothology topics: echolocation, electrosensory reception, steroid hormones, and vocal learning. The PSTs enrolled in the single control section of EDEL 404 collaborated with fellow elementary education majors to develop lesson plans also based on the same selected topics. Qualitative interviews of education faculty, science faculty, and PSTs provided depth to the quantitative findings. Upon lesson plan completion, in-service teachers also graded the two best and two worst plans for the treatment and control sections and a science reviewer graded the plans for scientific accuracy. Statistical analyses were conducted for hypotheses, and one significant hypothesis found that PSTs who collaborated with science students had more positive science lesson plan writing attitudes than those who did not. Despite overall insignificant statistical analyses, all PSTs responded as more confident after collaboration. Additionally, interviews provided meaning and understanding to the insignificant statistical results as well as scientific accuracy of the lesson plans.

Uses for Free Film Cans

ERIC Educational Resources Information Center

Batoff, Mitchell E.; Harmen, Jerry

1973-01-01

Describes multiple uses of empty film cans for equipping an elementary school science classroom. Instructional units in which film cans may be useful include buoyancy, mobiles, growing seeds, peas and particles, rocks and minerals, structures, field studies, sound, balancing, electricity, pedulums, chemical change, and optics, light, color. (PS)

Ready, Aim, Fire Your Cannons!

ERIC Educational Resources Information Center

Enderson, Mary C.

2015-01-01

This article presents a science, technology, engineering, and mathematics (STEM) activity, building an air cannon, in a mathematics classroom. It describes an investigation grounded in STEM concepts that elementary and middle school teachers carried out to think about ways of implementing STEM activities into their instruction. This particular…

Air Pollution and Weather: Activities and Demonstrations for Science Classes

ERIC Educational Resources Information Center

Cole, Henry S.

1973-01-01

Discusses a number of concepts (turbulence, dispersion, vertical temperature distribution, atmospheric stability and instability, and inversions) which are prerequisite to understanding how weather affects air quality. Describes classroom demonstrations effective in introducing these concepts to students at the elementary, secondary and college…

Question Asking in the Science Classroom: Teacher Attitudes and Practices

NASA Astrophysics Data System (ADS)

Eshach, Haim; Dor-Ziderman, Yair; Yefroimsky, Yana

2014-02-01

Despite the wide agreement among educators that classroom learning and teaching processes can gain much from student and teacher questions, their potential is not fully utilized. Adopting the view that reporting both teachers' (of varying age groups) views and actual classroom practices is necessary for obtaining a more complete view of the phenomena at hand, the present study closely examines both cognitive and affective domains of: (a) teachers' views (via interviews) concerning: (1) importance and roles of teacher and student questions, (2) teacher responses, and (3) planning and teacher training; and (b) teachers' actual practices (via classroom observations) concerning: (1) number and (2) level of teacher and student questions, as well as (3) teachers' responses to questions. The data were collected from 3 elementary, 3 middle, and 3 high school science teachers and their respective classroom students. The findings lay out a wide view of classroom questioning and teachers' responses, and relate what actually occurs in classes to teachers' stated views. Some of the study's main conclusions are that a gap exists between how science researchers and teachers view the role of teacher questions: the former highlight the cognitive domain, while the latter emphasize the affective domain.

Earth Systems Science in an Integrated Science Content and Methods Course for Elementary Education Majors

NASA Astrophysics Data System (ADS)

Madsen, J. A.; Allen, D. E.; Donham, R. S.; Fifield, S. J.; Shipman, H. L.; Ford, D. J.; Dagher, Z. R.

2004-12-01

With funding from the National Science Foundation, we have designed an integrated science content and methods course for sophomore-level elementary teacher education (ETE) majors. This course, the Science Semester, is a 15-credit sequence that consists of three science content courses (Earth, Life, and Physical Science) and a science teaching methods course. The goal of this integrated science and education methods curriculum is to foster holistic understandings of science and pedagogy that future elementary teachers need to effectively use inquiry-based approaches in teaching science in their classrooms. During the Science Semester, traditional subject matter boundaries are crossed to stress shared themes that teachers must understand to teach standards-based elementary science. Exemplary approaches that support both learning science and learning how to teach science are used. In the science courses, students work collaboratively on multidisciplinary problem-based learning (PBL) activities that place science concepts in authentic contexts and build learning skills. In the methods course, students critically explore the theory and practice of elementary science teaching, drawing on their shared experiences of inquiry learning in the science courses. An earth system science approach is ideally adapted for the integrated, inquiry-based learning that takes place during the Science Semester. The PBL investigations that are the hallmark of the Science Semester provide the backdrop through which fundamental earth system interactions can be studied. For example in the PBL investigation that focuses on energy, the carbon cycle is examined as it relates to fossil fuels. In another PBL investigation centered on kids, cancer, and the environment, the hydrologic cycle with emphasis on surface runoff and ground water contamination is studied. In a PBL investigation that has students learning about the Delaware Bay ecosystem through the story of the horseshoe crab and the biome that swirls around this remarkable arthropod, students are exposed to interactions between the hydrosphere, atmosphere, and geosphere and they examine ways in which climate change can affect this ecosystem.

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.

Elementary teachers' ideas about, planning for and implementation of learner-directed and teacher-directed inquiry: A mixed methods study

NASA Astrophysics Data System (ADS)

Biggers, Mandy Sue

Using a framework for variations of classroom inquiry (National Research Council [NRC], 2000, p. 29), this study explored 40 inservice elementary teachers' planning, modification, and enactment of kit-based science curriculum materials. As part of the study, a new observation protocol was modified from an existing protocol (Practices of Science Observation Protocol [P-SOP]) to measure the amount of teacher direction in science inquiry lessons (Practices of Science Observation Protocol + Directedness [P-SOPd]). An embedded mixed methods design was employed to investigate four questions: 1. How valid and reliable is the P-SOPd? 2. In what ways do inservice elementary teachers adapt existing elementary science curriculum materials across the inquiry continuum? 3. What is the relationship between the overall quality of inquiry and variations of inquiry in elementary teachers' enacted science instruction? 4. How do inservice elementary teachers' ideas about the inquiry continuum influence their adaptation of elementary science curriculum materials? Each teacher chose three lessons from a science unit for video-recorded observation, and submitted lesson plans for the three lessons. Lesson plans and videos were scored using the P-SOPd. The scores were also compared between the two protocols to determine if a correlation existed between the level of inquiry (measured on the P-SOP) and the amount of teacher direction (measured on the P-SOPd). Findings indicated no significant differences between planned and enacted lessons for the amount of teacher direction, but a correlation existed between the level of inquiry and the amount of teacher direction. In effect, the elementary teachers taught their science curriculum materials with a high level of fidelity for both the features of inquiry and the amount of teacher direction. A smaller group of three case study teachers were followed for the school year to give a more in-depth explanation of the quantitative findings. Case study findings revealed that the teachers' science instruction was teacher-directed while their conceptions of inquiry were student-directed. This study contributes to existing research on preservice teachers' learning about the continuum (Biggers & Forbes, 2012) and inservice teachers' ideas about the five features of inquiry (Biggers & Forbes, in press).

Place-based Learning About Climate with Elementary GLOBE

NASA Astrophysics Data System (ADS)

Hatheway, B.; Gardiner, L. S.; Harte, T.; Stanitski, D.; Taylor, J.

2017-12-01

Place-based education - helping students make connections between themselves, their community, and their local environment - is an important tool to help young learners understand their regional climate and start to learn about climate and environmental change. Elementary GLOBE storybooks and learning activities allow opportunities for place-based education instructional strategies about climate. In particular, two modules in the Elementary GLOBE unit - Seasons and Climate - provide opportunities for students to explore their local climate and environment. The storybooks and activities also make connections to other parts of elementary curriculum, such as arts, geography, and math. Over the long term, place-based education can also encourage students to be stewards of their local environment. A strong sense of place may help students to see themselves as stakeholders in their community and its resilience. In places that are particularly vulnerable to the impacts of climate and environmental change and the economic, social, and environmental tradeoffs of community decisions, helping young students developing a sense of place and to see the connection between Earth science, local community, and their lives can have a lasting impact on how a community evolves for decades to come. Elementary GLOBE was designed to help elementary teachers (i.e., grades K-4) integrate Earth system science topics into their curriculum as they teach literacy skills to students. This suite of instructional materials includes seven modules. Each module contains a science-based storybook and learning activities that support the science content addressed in the storybooks. Elementary GLOBE modules feature air quality, climate, clouds, Earth system, seasons, soil, and water. New eBooks allow students to read stories on computers or tablets, with the option of listening to each story with an audio recording. A new Elementary GLOBE Teacher Implementation Guide, published in 2017, provides educators with information and strategies how Elementary GLOBE modules can be effectively applied in classrooms, how Elementary GLOBE modules are aligned with national standards, and how student literacy and science inquiry skills can be strengthened while learning about the Earth system.

Teaching Strategies: Self-Created Children's Literature as a Teaching Strategy--Voices from the College and the Elementary Classroom

ERIC Educational Resources Information Center

Szilagyi, Janka; Zarazinski, Jill

2012-01-01

Researchers have noticed a shift in education, with science and social studies taking a backseat to mathematics and literacy (Marx & Harris, 2006; Rodriguez, 2006). Some school districts are operating on a rotating basis with science instruction--one month on and one month off (Marx & Harris, 2006). A better approach would be to encourage students…

We Teach as We Are Taught: Exploring the Potential for Emotional Climate to Enhance Elementary Science Preservice Teacher Education

ERIC Educational Resources Information Center

Olitsky, Stacy

2013-01-01

Bellocchi, Ritchie, Tobin, Sandhu and Sandhu's (2013) study highlights the crucial role that emotions play in learning at the university level in a preservice secondary science teacher education class. They examine the classroom structures that tended to lead to both a positive valence and a high level of intensity of the emotional climate…

La Materia. Nivel II. Basado en el curso de estudios de Ciencia de Montgomery County Public Schools. (Matter. Level II. Based on the Montgomery County Public Schools Science Studies Program).

ERIC Educational Resources Information Center

Gerstman, M. Linda

This curriculum unit is for use in an elementary school foreign language immersion program in Montgomery County, Maryland. The unit is geared toward the second grade science classroom. It includes instructional and performance objectives, vocabulary lists, optional language structure sections, illustrations, activities, evaluation suggestions, and…

Describing Students' Talk about Physical Science Phenomena outside and inside the Classroom: A Case of Secondary School Students from Maragoli, Western Region of Kenya

ERIC Educational Resources Information Center

Orado, Grace N.

2014-01-01

Because of cultural and linguistic influences on science learning involving students from diverse cultural and linguistic backgrounds, calls have been made for teachers to enact teaching that is sensitive to these students' backgrounds. However, most of the research involving such students has tended to focus on students at elementary grade levels…

Practicing the practice: Learning to guide elementary science discussions in a practice-oriented science methods course

NASA Astrophysics Data System (ADS)

Shah, Ashima Mathur

University methods courses are often criticized for telling pre-service teachers, or interns, about the theories behind teaching instead of preparing them to actually enact teaching. Shifting teacher education to be more "practice-oriented," or to focus more explicitly on the work of teaching, is a current trend for re-designing the way we prepare teachers. This dissertation addresses the current need for research that unpacks the shift to more practice-oriented approaches by studying the content and pedagogical approaches in a practice-oriented, masters-level elementary science methods course (n=42 interns). The course focused on preparing interns to guide science classroom discussions. Qualitative data, such as video records of course activities and interns' written reflections, were collected across eight course sessions. Codes were applied at the sentence and paragraph level and then grouped into themes. Five content themes were identified: foregrounding student ideas and questions, steering discussion toward intended learning goals, supporting students to do the cognitive work, enacting teacher role of facilitator, and creating a classroom culture for science discussions. Three pedagogical approach themes were identified. First, the teacher educators created images of science discussions by modeling and showing videos of this practice. They also provided focused teaching experiences by helping interns practice the interactive aspects of teaching both in the methods classroom and with smaller groups of elementary students in schools. Finally, they structured the planning and debriefing phases of teaching so interns could learn from their teaching experiences and prepare well for future experiences. The findings were analyzed through the lens of Grossman and colleagues' framework for teaching practice (2009) to reveal how the pedagogical approaches decomposed, represented, and approximated practice throughout course activities. Also, the teacher educators' purposeful use of both pedagogies of investigation (to study teaching) and pedagogies of enactment (to practice enacting teaching) was uncovered. This work provides insights for the design of courses that prepare interns to translate theories about teaching into the interactive work teachers actually do. Also, it contributes to building a common language for talking about the content of practice-oriented courses and for comparing the affordances and limitations of pedagogical approaches across teacher education settings.

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.

Pathways of professional learning for elementary science teachers using computer learning environments

NASA Astrophysics Data System (ADS)

Williams, Latonya Michelle

This dissertation reports on a three year study designed to investigate the trajectories of two urban elementary school teachers---a novice and an experienced teacher---learning to teach a science curriculum unit using an inquiry approach supported by the Web-based Inquiry Science Environment (WISE). This research investigated teachers' development in knowledge and practice. Through analyses of video records of classroom instruction and professional development meetings, repeated interviews, and student assessments, I have produced case studies of teachers' journeys as they implement the technological inquiry-based instructional model. This study captures the interplay between the teachers' pedagogical content knowledge, enacted practice, and insights into students' thinking about complex science ideas. I trace the factors that encouraged and supported the teachers' development, in addition to the kinds of struggles they faced and overcame. I discuss the social supports I provided for the teachers, including scaffolding them in reflecting on their practice, assisting them with curriculum customizations, and supporting their learning such as arranging online interactions with scientists. I analyze spontaneous activities such as teachers' own reflections. The results suggest that the novice and experienced teacher's classroom practices became more inquiry oriented across time. For both teachers, use of technology accompanied an increase in science dialogue with small groups in years two and three. The novice teacher began asking inquiry questions in her second year of classroom experience, after a great deal of professional support. Both teachers improved in their pedagogical content knowledge from years one through three as a result of the varied professional development supports. The results suggest that teachers' improvement in instructional strategies and pedagogical content knowledge accompanied students' improvement in understanding of the science content.

Effects of 3D Printing Project-based Learning on Preservice Elementary Teachers' Science Attitudes, Science Content Knowledge, and Anxiety About Teaching Science

NASA Astrophysics Data System (ADS)

Novak, Elena; Wisdom, Sonya

2018-05-01

3D printing technology is a powerful educational tool that can promote integrative STEM education by connecting engineering, technology, and applications of science concepts. Yet, research on the integration of 3D printing technology in formal educational contexts is extremely limited. This study engaged preservice elementary teachers (N = 42) in a 3D Printing Science Project that modeled a science experiment in the elementary classroom on why things float or sink using 3D printed boats. The goal was to explore how collaborative 3D printing inquiry-based learning experiences affected preservice teachers' science teaching self-efficacy beliefs, anxiety toward teaching science, interest in science, perceived competence in K-3 technology and engineering science standards, and science content knowledge. The 3D printing project intervention significantly decreased participants' science teaching anxiety and improved their science teaching efficacy, science interest, and perceived competence in K-3 technological and engineering design science standards. Moreover, an analysis of students' project reflections and boat designs provided an insight into their collaborative 3D modeling design experiences. The study makes a contribution to the scarce body of knowledge on how teacher preparation programs can utilize 3D printing technology as a means of preparing prospective teachers to implement the recently adopted engineering and technology standards in K-12 science education.

Planetary Science and Spacecraft Analogs in the Classroom

NASA Astrophysics Data System (ADS)

Edberg, S. J.; McConnell, S. L.

2000-12-01

The Cassini Program Outreach Team has developed a number of classroom demonstrations and activities that present science investigation techniques and spacecraft flight operations. These activities and demonstrations include analogs to planetary magnetic field orientations, ring particle and atmospheric scattering, thermal inertia studies, body-mounted vs. scan platform-mounted instrument operations on spacecraft, gravity assist, and many others. These curriculum supplements utilize inexpensive, commonly available materials that can be found in household kitchens, backyards, and hardware and variety stores. While designed for middle school classrooms, these activities are easily modified for use in both elementary and high school classes. We will demonstrate several of our activities and present information on others. This research was carried out at the Jet Propulsion Laboratory, California Institute of Technology, under a contract with the National Aeronautics and Space Administration.

Planetary Science and Spacecraft Analogs in the Classroom

NASA Astrophysics Data System (ADS)

Edberg, S. J.; McConnell, S. L.

2000-10-01

The Cassini Program Outreach Team has developed a number of classroom demonstrations and activities that present science investigation techniques and spacecraft flight operations. These activities and demonstrations include analogs to planetary magnetic field orientations, ring particle and atmospheric scattering, thermal inertia studies, body-mounted vs. scan platform-mounted instrument operations on spacecraft, gravity assist, and many others. These curriculum supplements utilize inexpensive, commonly available materials that can be found in household kitchens, backyards, and hardware and variety stores. While designed for middle school classrooms, these activities are easily modified for use in both elementary and high school classes. We will demonstrate several of our activities and present information on others. This research was carried out at the Jet Propulsion Laboratory, California Institute of Technology, under a contract with the National Aeronautics and Space Administration.

Science in a Box. Body Works II: Test Your Taste.

ERIC Educational Resources Information Center

Learning, 1991

1991-01-01

Presents classroom learning activities to help elementary teachers and students learn about and experiment with the sense of taste. One involves tasting an apple while smelling an onion; another involves locating areas of the tongue that respond to salt, sweet, bitter, and sour. (SM)

Guidelines and Recommendations for New Hampshire Public Elementary Schools, Kindergarten--Grade 6.

ERIC Educational Resources Information Center

New Hampshire State Dept. of Education, Concord.

Sections concerned with facilities deal with library services, equipment and facilities for science and physical education, and the school building. Recommendations for library service include check lists and standards pertaining to objectives, basic equipment and supplies, individual classroom collections, audio visual collections, library…

Improving K-12 STEM Education Outcomes through Technological Integration

ERIC Educational Resources Information Center

Urban, Michael J., Ed.; Falvo, David A., Ed.

2016-01-01

The application of technology in classroom settings has equipped educators with innovative tools and techniques for effective teaching practice. Integrating digital technologies at the elementary and secondary levels helps to enrich the students' learning experience and maximize competency in the areas of science, technology, engineering, and…

In Praise of Diversity: Multicultural Classroom Applications.

ERIC Educational Resources Information Center

Grant, Gloria, Ed.

The teacher's guide contains 51 activity units for implementing multicultural education in areas of social studies, language arts, science, math, and art. Activities, designed for elementary and junior high students, focus on racial and cultural diversity, the elderly, sex-role stereotyping, and the handicapped. Two introductory units suggest…

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.

Pre-Service Teacher as Researcher: The Value of Inquiry in Learning Science

NASA Astrophysics Data System (ADS)

Hohloch, Janice M.; Grove, Nathaniel; Lowery Bretz, Stacey

2007-09-01

A pre-service science and mathematics teacher participated in an action research project to reform a chemistry course required of elementary and middle childhood pre-service teachers. Activities to emphasize a hands-on approach to learning chemistry and to model teaching science through inquiry for these pre-service teachers are described. The value of a research experience for pre-service teachers, both upon their student teaching and as a classroom teacher, is discussed.

Rationale for a Study of the Relevance of Academic Learning Time and Active Teaching Behaviors to Secondary Science Teacher Education. Part of a Paper Set: Applying Teacher Effectiveness Findings to Preservice and Inservice Science Teacher Education.

ERIC Educational Resources Information Center

Ponzio, Richard; Russell, Thomas L.

This report is part of a paper set which focuses on a project designated as "Applying Research to Teacher Education (ARTE)." It reviews application possibilities of teacher effectiveness research in elementary classrooms to science teaching at the secondary level. Mills College (Oakland, California) was one of the sites involved in the…

Measuring Elementary Teacher Stress and Coping in the Classroom: Validity Evidence for the Classroom Appraisal of Resources and Demands

ERIC Educational Resources Information Center

Lambert, Richard G.; McCarthy, Christopher; O'Donnell, Megan; Wang, Chuang

2009-01-01

The Classroom Appraisal of Resources and Demands (CARD, elementary version) was used to investigate teacher stress among a sample of elementary teachers (n = 521). The CARD measures teacher stress by examining the subjective experience of both classroom demands and resources provided by the school, and thereby attempts to capture the situationally…

Bringing Inquiry Science to K-5 Classrooms

NASA Astrophysics Data System (ADS)

Schachtel, Paula L.; Messina, D. L.; McDermott, L. C.

2006-12-01

As a science coach in the Seattle School District, I am responsible for helping other elementary teachers teach science. For several years, I have been participating in a program that consists of intensive NSF Summer Institutes and an ongoing academic-year Continuation Course. Teachers in this program work through modules in Physics by Inquiry, a research-based curriculum developed by the Physics Education Group at the University of Washington.1 I will discuss how this type of professional development has deepened my understanding of topics in physical science, helped me to teach science by inquiry to my own students, and enabled me to assist my colleagues in implementing inquiry science in their K-5 classrooms. Sponsored by Lillian C. McDermott. 1. A research-based curriculum developed by L.C. McDermott and the Physics Education Group at the University of Washington, Physics by Inquiry, New York, NY, John Wiley & Sons, Inc. (1996.)

Interactive whiteboards in third grade science instruction

NASA Astrophysics Data System (ADS)

Rivers, Grier

Strategies have been put into place to affect improvement in science achievement, including the use of Interactive Whiteboards (IWBs) in science instruction. IWBs enable rich resources, appropriate pacing, and multimodal presentation of content deemed as best practices. Professional development experiences, use of resources, instructional practices, and changes in professional behavior in science teachers were recorded. Also recorded were differences in the engagement and motivation of students in IWB classrooms versus IWB-free classrooms and observed differences in students' problem solving, critical thinking, and collaboration. Using a mixed-method research design quantitative data were collected to identify achievement levels of the target population on the assumption that all students, regardless of ability, will achieve greater mastery of science content in IWB classrooms. Qualitative data were collected through observations, interviews, videotapes, and a survey to identify how IWBs lead to increased achievement in third grade classrooms and to develop a record of teachers' professional practices, and students' measures of engagement and motivation. Comparative techniques determined whether science instruction is more effective in IWB classroom than in IWB-free classrooms. The qualitative findings concluded that, compared to science teachers who work in IWB-free settings, elementary science teachers who used IWBs incorporated more resources to accommodate learning objectives and the varied abilities and learning styles of their students. They assessed student understanding more frequently and perceived their classrooms as more collaborative and interactive. Furthermore, they displayed willingness to pursue professional development and employed different engagement strategies. Finally, teachers who used IWBs supported more instances of critical thinking and problem-solving. Quantitative findings concluded that students of all ability levels were more motivated and engaged in IWB classes. Best practices distilled included combining IWBs with handheld peripherals to maximize assessment; the determination that formal professional development is more effective than peer coaching; that effectively managing an IWB classroom is as vital as learning how to use board itself; and that IWB teachers should be able to modify resources to tailor them for the circumstances of their classroom.

Bringing Science Public Outreach to Elementary Schools

NASA Astrophysics Data System (ADS)

Miller, Lucas; Speck, A.; Tinnin, A.

2012-01-01

Many science "museums” already offer fantastic programs for the general public, and even some aimed at elementary school kids. However, these venues are usually located in large cities and are only occasionally used as tools for enriching science education in public schools. Here we present preliminary work to establish exciting educational enrichment environments for public schools that do not easily have access to such facilities. This program is aimed at motivating children's interest in science beyond what they learn in the classroom setting. In this program, we use the experience and experiments/demonstrations developed at a large science museum (in this case, The St. Louis Science Center) and take them into a local elementary school. At the same time, students from the University of Missouri are getting trained on how to present these outreach materials and work with the local elementary schools. Our pilot study has started with implementation of presentations/demonstrations at Benton Elementary School within the Columbia Public School district, Missouri. The school has recently adopted a STEM (Science, Technology, Engineering, and Mathematics) centered learning system throughout all grade levels (K-5), and is therefore receptive to this effort. We have implemented a program in which we have given a series of scientific demonstrations at each grade level's lunch hour. Further enrichment ideas and plans include: addition demonstrations, hands-on experiments, and question and answer sessions. However, the application of these events would be to compliment the curriculum for the appropriate grade level at that time. The focus of this project is to develop public communications which links science museums, college students and local public schools with an emphasis on encouraging college science majors to share their knowledge and to strengthen their ability to work in a public environment.

Personal goals as predictors of intended classroom goals: comparing elementary and secondary school pre-service teachers.

PubMed

Daniels, Lia M; Frenzel, Anne C; Stupnisky, Robert H; Stewart, Tara L; Perry, Raymond P

2013-09-01

The literature documents fewer classroom mastery goal structures in secondary school compared to elementary. However, little is known about how personal achievement goals may influence classroom goal structures. This is especially true at the level of pre-service teachers. Our objective was to investigate if pre-service teachers' personal goals predicted their intended classroom goal structures. Participants were 125 elementary and 175 secondary school pre-service teachers from two Western Canadian universities. Structural equation modelling was used to examine if the structural relationships and latent means of personal and intended classroom goal structures differed for elementary and secondary school pre-service teachers. The results revealed that personal goals predicted the goal structures that pre-service teachers intended to establish; however, the relationships and means differed between elementary and secondary school pre-service teachers. Specifically, personal mastery-approach goals positively predicted classroom mastery goals much more strongly at the elementary than the secondary level. Furthermore, elementary pre-service teachers had significantly higher latent mean scores on personal mastery-approach goals than their secondary counterparts. It seems possible that the currently documented differences between classroom goal structures noted for elementary compared to secondary school may be based on the personal goals endorsed as pre-service teachers. The results are further discussed in terms of alignment with research on practising teachers' personal and classroom goals and implications for teacher education. © 2012 The British Psychological Society.

Science Alive!: Connecting with Elementary Students through Science Exploration.

PubMed

Raja, Aarti; Lavin, Emily Schmitt; Gali, Tamara; Donovan, Kaitlin

2016-05-01

A novel program called Science Alive! was developed by undergraduate faculty members, K-12 school teachers, and undergraduate students to enrich science, technology, engineering, and mathematics (STEM) literacy at community schools located near the university. The ultimate goal of the program is to bolster the scientific knowledge and appreciation of local area students and community members and serve as a model for similar programs. Through the program, we observed that elementary school students made gains toward learning their grade-level science curricula after a hands-on learning experience and had fun doing these hands-on activities. Through the program, undergraduate students, working with graduate students and alumni, build scientific learning modules using explanatory handouts and creative activities as classroom exercises. This helps better integrate scientific education through a collaborative, hands-on learning program. Results showed that elementary school students made the highest learning gains in their performance on higher-level questions related to both forces and matter as a result of the hands-on learning modules. Additionally, college students enjoyed the hands-on activities, would consider volunteering their time at such future events, and saw the service learning program as a benefit to their professional development through community building and discipline-specific service. The science modules were developed according to grade-level curricular standards and can be used year after year to teach or explain a scientific topic to elementary school students via a hands-on learning approach.

Science Language Accommodation in Elementary School Read-Alouds

NASA Astrophysics Data System (ADS)

Glass, Rory; Oliveira, Alandeom W.

2014-03-01

This study examines the pedagogical functions of accommodation (i.e. provision of simplified science speech) in science read-aloud sessions facilitated by five elementary teachers. We conceive of read-alouds as communicative events wherein teachers, faced with the task of orally delivering a science text of relatively high linguistic complexity, open up an alternate channel of communication, namely oral discussion. By doing so, teachers grant students access to a simplified linguistic input, a strategy designed to promote student comprehension of the textual contents of children's science books. It was found that nearly half (46%) of the read-aloud time was allotted to discussions with an increased percentage of less sophisticated words and reduced use of more sophisticated vocabulary than found in the books through communicative strategies such as simplified rewording, simplified definition, and simplified questioning. Further, aloud reading of more linguistically complex books required longer periods of discussion and an increased degree of teacher oral input and accommodation. We also found evidence of reversed simplification (i.e. sophistication), leading to student uptake of scientific language. The main significance of this study is that it reveals that teacher talk serves two often competing pedagogical functions (accessible communication of scientific information to students and promotion of student acquisition of the specialized language of science). It also underscores the importance of giving analytical consideration to the simplification-sophistication dimension of science classroom discourse as well as the potential of computer-based analysis of classroom discourse to inform science teaching.

Sustaining Reform-Based Science Teaching of Preservice and Inservice Elementary School Teachers

NASA Astrophysics Data System (ADS)

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

2013-08-01

This study examined the influence of a professional development program based around commercially available inquiry science curricula on the teaching practices of 27 beginning elementary school teachers and their teacher mentors over a 2 year period. A quantitative rubric used to score inquiry elements and use of data in videotaped lessons indicated that education students assigned to inquiry-based classrooms during their methods course or student teaching year outperformed students without this experience. There was also a significant positive effect of multi-year access to the kit-based program on mentor teaching practice. Recent inclusion of a "writing in science" program in both preservice and inservice training has been used to address the lesson element that received lowest scores—evaluation of data and its use in scientific explanation.

Tracking Identity: Opportunity, Success, and Affiliation with Science among Fifth-Grade Latina/o Youth of Santa Barbara, California

NASA Astrophysics Data System (ADS)

Maas, Grayson Ford

This dissertation is an investigation into the American public education system at the elementary school level. It highlights important factors that shape the organizational structure of schools and classrooms, and in turn, how they engender disparities in the ways students experience education, namely, in the opportunities made available to them to achieve and succeed at a high level. This dissertation operates at the confluence of notions about class, gender, language, and race, especially as they revolve around public education and the hegemonic meritocratic discourse on which it is founded. This dissertation engages and contributes to scholarship within the following areas: The political economy of education; discourse and the dialectical relationship between agency and structure; cultural perspectives on identity, voice, and learning; and, Latinas/os in science education. The data that serve as the basis for the findings presented in this dissertation were collected throughout a three-phase yearlong ethnographic study of the two tracked fifth-grade classrooms at Amblen Elementary School, serving a socioeconomically disadvantaged Latina/o student population in Santa Barbara, California. In classrooms all across the nation, while it remains true that Latina/o students disproportionally take up space in the lower-tracked courses and not in the higher ones, this study does not examine inequality in tracking assignments made along ethnic/racial lines (as 100% of the students that participated in this research identify as Latina/o), rather, it investigates the consequences of what happens when Latina/o students are tracked according to symbolic markers of their ethnic/racial identity, that is, their varying levels of English language competency. Using data from participant observation, semi-structured interviews, students' drawings, as well as free-list and rank-order exercises, I was able to answer the following central research questions: In what ways do the division of students into groups (based on academic ability [i.e., English language proficiency] and behavior) impact: (a) the number and types of opportunities for Latinas/os to succeed in school science? (b) how Latinas/os negotiate the concept of 'success' in school science? And (c) the ways in which Latinas/os claim and perform successful school science identities? During my time with the fifth-grade youth of Amblen Elementary School, I found that not all students were necessarily expected to succeed in the same ways and with the same frequency. I also found that while there existed considerable overlaps, what it meant to be a "good" science student in one classroom was qualitatively different from what it meant in the other. Importantly, these differences in classroom expectations helped to mold (or inhibit) students' individual understandings of self as capable and/or "smart" students. This dissertation endeavors to tell their story.

Urban school leadership for elementary science education: Meeting the needs of English Language Learners

NASA Astrophysics Data System (ADS)

Alarcon, Maricela H.

Science education reform and state testing accountability call upon principals to become instructional leaders in science. Specifically, elementary school principals must take an active role in science instruction to effectively improve science education for all students including English Language Learners. As such, the research questioned posed in this study centered on How are elementary school principals addressing the academic needs of Latino Spanish-speaking English language learners within science education? This study employed a qualitative research design to identify the factors contributing to the exemplary performance in science, as measured by the Texas Assessment of Knowledge and Skills (TAKS), for English Language Learner students in three high poverty bilingual elementary schools based on a multiple case study. As part of the data collection process, interviews were conducted with three school principals, three science academic support teachers, and two 5th grade bilingual teachers. Additionally, observations were acquired through school principal shadowing. The findings revealed four attributes necessary for effective instructional leadership in science education. First, Positive School Culture was defined as the core that linked the other three instructional leadership attributes and thus increased their effectiveness. Second, Clear Goals and Expectations were set by making science a priority and ensuring that English language learners were transitioning from Spanish to English instruction by the fifth grade. Third, Critical Resourcing involved hiring a science academic support teacher, securing a science classroom on campus, and purchasing bilingual instructional materials. Fourth, principal led and supported Collaboration in which teachers met to discuss student performance based data in addition to curriculum and instruction. These research findings are vital because by implementing these best practices of elementary school principals, educators are positioned to lay the foundation for science needed for ELLs to continue their educational career with the tools needed to succeed in future science classes and in turn college, answering the call to effectively improve science within the educational system.

Action Research Projects in Pre-Service Teacher Education

ERIC Educational Resources Information Center

Clayton, Courtney; Meadows, George

2013-01-01

Classroom-centered Action Research Projects are an integral component of the M.S. in Elementary Education Program at the University's (pseudonym) College of Education. This article provides a summary and discussion of the projects completed by students in the Science, Technology, Literacy and English Language Learner Specializations of the…

Biennial Conference on Chemical Education: Abstracts of Papers (9th, Bozeman, Montana, July 27-August 2, 1986).

ERIC Educational Resources Information Center

1986

This document includes summaries of conference presentations dealing with a wide variety of topics, including chemistry units for the elementary classroom, science experimentation in the secondary school, computer simulations, computer interfaces, videodisc technology, correspondence teaching of general chemistry, interdisciplinary energy courses,…

When Worlds Collide: Recent Developments in Children's Literature

ERIC Educational Resources Information Center

Reese, Debbie

2017-01-01

Debbie Reese, a former elementary school teacher and assistant professor in American Indian Studies, publishes the blog American Indians in Children's Literature. Tribally enrolled at Nambe Pueblo, her book chapters and articles are taught in university classrooms in English, education, and library science across the U.S. and Canada. She is…

Integrating Anthropology in Elementary Social Studies.

ERIC Educational Resources Information Center

Zachlod, Michelle

2000-01-01

Discusses how anthropology can be integrated into the social studies classroom focusing on second and fifth grade levels. Demonstrates how different subject areas can be integrated with anthropology, such as history, geography, science, mathematics, and art. Covers topics such as foods, American Indian folklore, moonsticks, and myths and legends.…

Do You Hear What I Hear

ERIC Educational Resources Information Center

Adams, Krista L.; Pedersen, Jon; Narboni, Nicole

2014-01-01

Ask many elementary school teachers or principals, and they will say that science and music are not the top priority in their classrooms. Teachers need to know "how" they can incorporate the necessary mathematics and reading goals and objectives while still engaging students in the critical and aesthetic thinking developed through…

A Behavior-Based Approach for Educational Robotics Activities

ERIC Educational Resources Information Center

De Cristoforis, P.; Pedre, S.; Nitsche, M.; Fischer, T.; Pessacg, F.; Di Pietro, C.

2013-01-01

Educational robotics proposes the use of robots as a teaching resource that enables inexperienced students to approach topics in fields unrelated to robotics. In recent years, these activities have grown substantially in elementary and secondary school classrooms and also in outreach experiences to interest students in science, technology,…

Using Models Effectively

ERIC Educational Resources Information Center

Eichinger, John

2005-01-01

Models are crucial to science teaching and learning, yet they can create unforeseen and overlooked challenges for students and teachers. For example, consider the time-tested clay volcano that relies on a vinegar and-baking-soda mixture for its "eruption." Based on a classroom demonstration of that geologic model, elementary students may interpret…

Learn Better by Doing Study: Fourth-Year Results

ERIC Educational Resources Information Center

Moye, Johnny J.; Dugger, William E., Jr.; Starkweather, Kendall N.

2017-01-01

The purpose of the "Learn Better by Doing Study" was to determine the extent to which U.S. public elementary, middle, and high school students were doing hands-on activities in their science, technology, engineering, and mathematics (STEM) classrooms. The International Technology and Engineering Educators Association's (ITEEA's)…

Examining Elementary Teachers' Engineering Self-Efficacy and Engineering Teacher Efficacy

ERIC Educational Resources Information Center

Hammack, Rebekah; Ivey, Toni

2017-01-01

Research indicates that teacher efficacy influences student achievement and is situation specific. With the Next Generation Science Standards calling for the incorporation of engineering practices into K-12 classrooms, it is important to identify teachers' engineering teaching efficacy. A study of K-5 teachers' engineering self-efficacy and…

Elementary School Teachers' Vocal Dose: Muscle Bioenergetics and Training Implications

ERIC Educational Resources Information Center

Smith, Audrey G.; Sandage, Mary J.; Pascoe, David D.; Plexico, Laura W.; Lima, Italo R.; Cao, Guanqun

2017-01-01

Purpose: Translating exercise-science methodology for determination of muscle bioenergetics, we hypothesized that the temporal voice-use patterns for classroom and music teachers would indicate a reliance on the immediate energy system for laryngeal skeletal-muscle metabolism. It was hypothesized that the music-teacher group would produce longer…

Enhancing Students' Thinking Skills: Exploring Model Technology-Integration Sites.

ERIC Educational Resources Information Center

Moersch, Christopher

1998-01-01

Examines ways to integrate technology into social studies, science, mathematics, and language arts. Describes model elementary and middle-school classrooms in which technology is used to investigate the concept of property, study soil porosity and the water cycle, run a student store, and promote environmental activism. (PEN)

How Time is Spent in Elementary Classrooms.

ERIC Educational Resources Information Center

Rosenshine, Barak V.

1981-01-01

Time allocation in the second and fifth grades was divided into three major categories: (1) academic activities such as reading, mathematics, science, and social studies; (2) nonacademic activities such as music, art, and physical education; and (3) noninstructional activities such as transitions and class business. The number of minutes engaged…

Education in Independent India: Distortions in Its Vision

ERIC Educational Resources Information Center

Oommen, T. K.

2018-01-01

This article argues that imparting literacy through the mother tongue of the child and in the setting of an inclusive classroom are the two essential steps for fostering universal elementary education. Nurturing appropriate methodological orientations specific to the material, life and human sciences is critical in accelerating the development of…

Student cognition and motivation during the Classroom BirdWatch citizen science project

NASA Astrophysics Data System (ADS)

Tomasek, Terry Morton

The purpose of this study was to examine and describe the ways various stakeholders (CBW project developer/coordinator, elementary and middle school teachers, and 5th through 8th grade students) envisioned, implemented and engaged in the citizen science project, eBird/Classroom BirdWatch. A multiple case study mixed-methods research design was used to examine student engagement in the cognitive processes associated with scientific inquiry as part of citizen science participation. Student engagement was described based on a sense of autonomy, competence, relatedness and intrinsic motivation. A goal of this study was to expand the taxonomy of differences between authentic scientific inquiry and simple inquiry to include those inquiry tasks associated with participation in citizen science by describing how students engaged in this type of science. This research study built upon the existing framework of cognitive processes associated with scientific inquiry described by Chinn and Malhotra (2002). This research provides a systematic analysis of the scientific processes and related reasoning tasks associated with the citizen science project eBird and the corresponding curriculum Classroom BirdWatch . Data consisted of responses to surveys, focus group interviews, document analysis and individual interviews. I suggest that citizen science could be an additional form of classroom-based science inquiry that can promote more authentic features of scientific inquiry and engage students in meaningful ways.

Seres Vivos. Nivel I. Basado en el curso de estudios de Ciencia de Montgomery County Public Schools. (Living Beings. Level 1. Based on the Montgomery County Public Schools Science Studies Program).

ERIC Educational Resources Information Center

Senger, Graciela

This curriculum unit, developed by the Montgomery County Public Schools, Maryland, was designed for use in the elementary level foreign language immersion program. It is geared toward the first grade science classroom. The unit includes instructional and performance objectives, necessary vocabulary lists, optional language structure sections,…

Negotiating the integration of new literacies in math and science content: The lived experience of classroom teachers

NASA Astrophysics Data System (ADS)

Wimmer, Jennifer Joy

The purpose of this phenomenological study was to investigate the lived experience of integrating new literacies in math and science content by upper elementary and middle school teachers. This study highlights the lived experience of six teachers including two elementary math teachers, two middle school math teachers, and two middle school science teachers. Data sources included five in-depth interviews, teachers' weekly reflection journals, weekly classroom observations, and one principal interview at each of the three high-needs schools. Data were analyzed through an analytic and thematic approach. A reconstructed story was created for each teacher which provides insight into the teacher as an individual. Additionally, a thematic analysis resulted in the identification of five essential themes across all six stories which included: technology exclusively, rethinking who they are as teachers, stabilizing rather than challenging content, rethinking student learning, circumstances, and futures, and serving official context and discourse. The findings indicate that the teachers' lived experience of integrating new literacies in math and science content was filled with uncertainty and a search for stability. A key implication of this study is the need for quality professional development that provides teachers with the opportunity to learn about, question, and rethink the intersection of new literacies, content area literacy, and teacher knowledge.

The influence of a Classroom Model of Scientific Scholarship on Four Girls' Trajectories of Identification with Science

NASA Astrophysics Data System (ADS)

Cook, Melissa Sunshine

This study examines the teacher's role in shaping the identity construction resources available in a classroom and the ways in which individual students take up, modify, and appropriate those resources to construct themselves as scientists through interaction with their teacher and peers. Drawing on frameworks of identity construction and social positioning, I propose that the locally-negotiated classroom-level cultural model of what it means to be a "good" science student forms the arena in which students construct a sense of their own competence at, affiliation with, and interest in science. The setting for this study was a 6th grade science class at a progressive urban elementary school whose population roughly represents the ethnic and socioeconomic diversity of the state of California. The teacher was an experienced science and math teacher interested in social justice and inquiry teaching. Drawing from naturalistic observations, video and artifact analysis, survey data, and repeated interviews with students and the teacher, I demonstrated what it meant to be a "good" science student in this particular cultural community by analyzing what was required, reinforced, and rewarded in this classroom. Next, I traced the influence of this particular classroom's conception of what it meant to be good at science on the trajectories of identification with science of four 6th grade girls selected to represent a variety of stances towards science, levels of classroom participation, and personal backgrounds. Scientific scholarship in this class had two parts: values related to science as a discipline, and a more generic set of school-related values one might see in any classroom. Different meanings of and values for science were indexed in the everyday activities of the classroom: science as a language for describing the natural world, science as a set of rhetorical values, science as an adult social community, and science as a place for mess and explosions. Among school-related values, participation, cooperation, and completing work were most important. Individual students leveraged different aspects of the local cultural model of scientific scholarship to construct themselves as competent participants in the science classroom. This study extends and complicates current analyses of classroom norms by showing that to understand identity construction, we must do more than identify a list of norms operating in a classroom---we must map the relationships between norms. This analysis demonstrates how broader discourses, in this case about schooling and science, infiltrated the classroom and influenced the meaning and operation of classroom norms and individual students' efforts to position themselves in relation to the classroom model of a good student. Finally, these findings show the value in examining recognition from three interrelated lenses: self-narratives, other-narratives, and observational accounts of positioning.

An examination of key experiences which contribute to a positive change in attitude toward science in two elementary education teacher candidates at the University of Wyoming

NASA Astrophysics Data System (ADS)

Cason, Maggie A.

This investigation utilized life history methodology (Armstrong, 1987; Bogdan & Biklen, 1998; Lawrence-Lightfoot, 1977; Marshall & Rossman, 1995; Patton, 1987; Taylor & Bogdan; 1984) to examine lifelong science experiences of two elementary education teacher candidates at a land grant institution with a large, undergraduate teacher education program. Purposive sampling techniques (Bogdan & Biklen, 1998) led to the selection of two teacher candidates who reported high science anxiety when they began university coursework. The investigation focused on five broad questions: (a) What were key experiences in the elementary teacher education program which contributed to a positive change in attitude toward science? (b) What science experiences, in and out of school, did the teacher candidates encounter while they were in elementary school, junior high school, high school, and college? (c) How did the elementary education program's science course structure, professors, and field experiences contribute to the change in attitude toward science? (d) How much time was involved in the change in attitude toward science? and (e) What were the effects of the change in attitude on the teaching of science in the elementary classroom? Each candidate completed approximately twenty hours of interviews yielding rich descriptions of their lifelong science experiences. Data also included interviews with science and science education professors, journaling, and observations of student teaching experiences. Data analysis revealed four over-arching themes with implications for teacher educators. First, data showed the importance of relationship building between professors and teacher candidates. Professors must know and work with teacher candidates, and provide a structure that encourages question asking. Second, course structure including hands-on teaching strategies and students working in small groups over an extended period of time was vital. Third, integrating language arts with science proved important because the generally high comfort level experienced by elementary teacher candidates toward language arts may be extended to the teaching of science. Teacher candidates realize the benefits for both teaching and learning when the two subjects are integrated. Last, the study revealed the powerful effects of field experiences which include teaching science in the public schools and demonstrated the drawbacks of field experiences which do not include teaching science.

Boys and girls "doing science" and "doing gender"

NASA Astrophysics Data System (ADS)

Cervoni, Cleti

The gender gap in achievement in science continues to plague science educators (AAAS, 2001). Strategies to close this gap have defined the problem in terms of girls' lack of interest or their inability to survive in science classrooms. Recent feminist scholarship has re-centered this problem of gender inequity not on girls, but on the nature of science and how it is taught in schools (Birke, 1986; Parker, 1997). Lesley Parker (1997) argues that it is schools that need to change and recommends a gender-inclusive science curriculum for schools. My dissertation argues for a new framework and research agenda for understanding the relationship between gender and science in schools. My study examines the gender dynamics of how unequal gender relations are negotiated, resisted and sustained in the context of a second grade science classroom. In examining the gender dynamics between the boys and the girls in a science classroom, I found that the boys positioned the girls as their assistants, as incompetent in science, as weak in contrast to the boys, and in need of the boys' help and protection. These discourses functioned to create and sustain unequal gender relations in the classroom. The girls responded in paradoxical ways to the boys' positioning of them. They resisted the boys by: (a) ignoring them; (b) using a domestic discourse to negotiate/gain more power; (c) appropriating teacher authority; or (d) using sexuality to embarrass and silence the boys. The girls also deferred to the boys as experts in science. In these ways, the girls themselves contributed to maintaining unequal gender relations in the classroom. I found that the classroom context is a site of struggle for both boys and girls as they seek to secure a place in the social hierarchy of the classroom. For the boys, masculinity is strong and powerful yet fragile and vulnerable. The girls struggle in holding multiple images of femininity. Examining gender dynamics through positioning and negotiation for power in a science classroom has implications for teaching science in elementary school.

Modern Scientific Literacy: A Case Study of Multiliteracies and Scientific Practices in a Fifth Grade Classroom

NASA Astrophysics Data System (ADS)

Allison, Elizabeth; Goldston, M. Jenice

2018-01-01

This study investigates the convergence of multiliteracies and scientific practices in a fifth grade classroom. As students' lives become increasingly multimodal, diverse, and globalized, the traditional notions of literacy must be revisited (New London Group 1996). With the adoption of the Next Generation Science Standards (NGSS Lead States 2013a) in many states, either in their entirety or in adapted forms, it becomes useful to explore the interconnectedness multiliteracies and scientific practices and the resulting implications for scientific literacy. The case study included a fifth grade classroom, including the students and teacher. In order to create a rich description of the cases involved, data were collected and triangulated through teacher interviews, student interviews and focus groups, and classroom observations. Findings reveal that as science activities were enriched with multiliteracies and scientific practices, students were engaged in developing skills and knowledge central to being scientifically literate. Furthermore, this study establishes that characteristics of scientific literacy, by its intent and purpose, are a form of multiliteracies in elementary classrooms. Therefore, the teaching and learning of science and its practices for scientific literacy are in turn reinforcing the development of broader multiliteracies.

Perceived teacher affective support in relation to emotional and motivational variables in elementary school science classrooms in Turkey

NASA Astrophysics Data System (ADS)

Sakiz, Gonul

2017-01-01

Background: In recent research, affective learning environments and affective support have been receiving increasing attention for their roles in stimulating students' learning outcomes. Despite its raising importance, little is known about affective support in educational contexts in developing countries. Moreover, international student assessment programmes (e.g. PISA and TIMSS) reveal poor science proficiency of students in most of those countries, which provokes the question of how to make positive changes in students' perspectives and attitudes in science.

Using food as a tool to teach science to 3rd grade students in Appalachian Ohio

PubMed Central

Duffrin, Melani W.; Hovland, Jana; Carraway-Stage, Virginia; McLeod, Sara; Duffrin, Christopher; Phillips, Sharon; Rivera, David; Saum, Diana; Johanson, George; Graham, Annette; Lee, Tammy; Bosse, Michael; Berryman, Darlene

2010-01-01

The Food, Math, and Science Teaching Enhancement Resource (FoodMASTER) Initiative is a compilation of programs aimed at using food as a tool to teach mathematics and science. In 2007–2008, a foods curriculum developed by professionals in nutrition and education was implemented in 10 3rd-grade classrooms in Appalachian Ohio; teachers in these classrooms implemented 45 hands-on foods activities that covered 10 food topics. Subjects included measurement; food safety; vegetables; fruits; milk and cheese; meat, poultry, and fish; eggs; fats; grains; and meal management. Students in four other classrooms served as the control group. Mainstream 3rd-grade students were targeted because of their receptiveness to the subject matter, science standards for upper elementary grades, and testing that the students would undergo in 4th grade. Teachers and students alike reported that the hands-on FoodMASTER curriculum experience was worthwhile and enjoyable. Our initial classroom observation indicated that the majority of students, girls and boys included, were very excited about the activities, became increasingly interested in the subject matter of food, and were able to conduct scientific observations. PMID:20975982

A critical hermeneutic study: Third grade elementary African American students' views of the nature of science

NASA Astrophysics Data System (ADS)

Walls, Leon

Nature of Science is one of the most fundamental aspects of understanding science. How different cultures, races and ethnicities see and interpret science differently is critical. However, the NOS views specific to African American teachers and learners have gone largely unresearched. The views of a purposeful sample of African American third grade children reported in this study contribute to efforts to make science equitable for all students. Conducted in two Midwest urban settings, within the students' regular classrooms, three instruments were employed: Views of Nature of Science Elementary (an interview protocol), Elementary Draw a Scientist Test (a drawing activity supplemented by an explicating narrative), and Identify a Scientist (a simple select-a-photo technique supported by Likert-measured sureness). The responses provided by twenty-three students were coded using qualitative content analysis. The findings are represented in three main categories: Science - is governed by experimentation, invention and discovery teach us about the natural world, school is not the only setting for learning science; Scientists - intelligent, happy, studious men and women playing multiple roles, with distinct physical traits working in laboratories; Students - capable users and producers of science and who view science as fun. This study advocates for: use of such instruments for constant monitoring of student views, using the knowledge of these views to construct inquiry based science lessons, and increased research about students of color.

Developing a Professional Identity as an Elementary Teacher of Nature of Science: A self-study of becoming an elementary teacher

NASA Astrophysics Data System (ADS)

Akerson, Valarie L.; Pongsanon, Khemmawadee; Weiland, Ingrid S.; Nargund-Joshi, Vanashri

2014-08-01

This study explores the development of professional identity as a teacher of nature of science (NOS). Our research question was 'How can a teacher develop a professional identity as an elementary teacher of NOS?' Through a researcher log, videotaped lessons, and collection of student work, we were able to track efforts in teaching NOS as part of regular classroom practice. A team of four researchers interpreted the data through the Beijaard et al. professional identity framework and found that it was not as simple and straightforward to teach NOS as we predicted. Development of professional identity as a teacher of NOS was influenced by contextual factors such as students, administration, and time, as well as personal struggles that were fraught with emotion. Development took place through an interpretation and reinterpretation of self through external factors and others' perceptions, as well as the influence of sub-identities.

Elementary Classroom Teachers and Physical Education: Change in Teacher-Related Factors during Pre-Service Teacher Education

ERIC Educational Resources Information Center

Fletcher, Tim; Mandigo, James; Kosnik, Clare

2013-01-01

Background: In many contexts, elementary physical education (PE) classes are taught by the classroom teacher rather than by a PE specialist. Elementary classroom teachers often cite negative attitudes resulting from experiences as school pupils and inadequate pre-service PE teacher education as barriers to teaching a quality PE programme. Purpose:…

Kissing Brides and Loving Hot Vampires: Children's Construction and Perpetuation of Heteronormativity in Elementary School Classrooms

ERIC Educational Resources Information Center

Ryan, Caitlin L.

2016-01-01

This paper explores notions of (hetero)sexuality circulating in elementary school classrooms through an analysis of students' own talk and interactions. Data collected during a multi-site ethnography in a diverse set of elementary schools demonstrate that while curricular silences and teachers contribute to heteronormative classroom environments,…

A School-College Consultation Model for Integration of Technology and Whole Language in Elementary Science Instruction. Field Study Report No. 1991.A.BAL, Christopher Columbus Consortium Project.

ERIC Educational Resources Information Center

Balajthy, Ernest

A study examined a new collaborative consultation process to enhance the classroom implementation of whole language science units that make use of computers and multimedia resources. The overall program was divided into three projects, two at the fifth-grade level and one at the third grade level. Each project was staffed by a team of one…

From Teachers' Perspectives: The Social and Psychological Benefits of Multiage Elementary Classrooms.

ERIC Educational Resources Information Center

Marshak, David

This paper on multiage classrooms provides first steps toward a systemic understanding of the defining qualities of multiage classrooms and, from teachers' perspectives, the benefits of such classrooms for students, teachers, and parents. The multiage classroom movement in elementary schools is viewed as not just restructuring, but also as the…

Keys To The Kansas Environment. 4-H School Enrichment Program.

ERIC Educational Resources Information Center

Kansas State Univ., Manhattan. Extension Service.

The 4-H Club packet for preschool and elementary school children contains nine "keys", or short learning exercises, designed to enrich science and environmental education both in and out of the classroom. Each "key" includes the purpose of the activity, the intended audience, the best time of the year for the activity,…

Use of Thermochrons in the Classroom

ERIC Educational Resources Information Center

Avard, Margaret Marie

2010-01-01

Preservice elementary education students often do not have a good feel for the process of science. Many may be acquainted with the steps of the scientific method but have never been through the scientific process. An exercise was designed using temperature-logging iButtons (Thermochrons) to improve knowledge of and familiarity with the process of…

The Effects of an Inquiry Development Program on Elementary School Children's Science Learnings.

ERIC Educational Resources Information Center

Schlenker, George Charles

This investigation presents a comparative study between a classroom atmosphere conducive to inquiry, with teachers considered qualified for this type of teaching, and the more formal didactic lecture-demonstration type teaching (traditional), with teachers judged to be particularly competent in this approach. The sample consisted of 582 pupils…

"Measuring Me": Using Nutrition Education Curriculum Activities to Teach Elementary Mathematics

ERIC Educational Resources Information Center

McLeod, Sara; Carraway-Stage, Virginia; Hovland, Jana; Duffrin, Melani

2012-01-01

"Measuring Me" is an introductory activity developed to be used while collecting pre-study anthropometric data for the Food Math and Science Teacher Enhancement Resource (FoodMASTER) Initiative. Using "Measuring Me" as an introductory activity for collecting anthropometric measurements in the classroom was feasible and well received by students…

Supporting the K-12 Classroom through University Outreach

ERIC Educational Resources Information Center

Moskal, Barbara; Skokan, Catherine

2011-01-01

This article provides a field-based example of a series of outreach programs that have been designed in response to current recommendations found in the K-12 outreach literature. These programs begin with university mathematics and science faculty members teaching a 10-day summer workshop to elementary and middle school teachers. Following this…

Learn Better by Doing Study--Third-Year Results

ERIC Educational Resources Information Center

Moye, Johnny; Dugger, William E., Jr.; Starkweather, Kendall N.

2016-01-01

The purpose of the "Learn Better by Doing" study is to determine the extent to which U.S. public school students are doing hands-on activities in their classrooms. The study asks elementary and secondary (middle and high school) science, technology, engineering, and mathematics (STEM) teachers to respond to 13 statements concerning…

Perceived Teacher Affective Support in Relation to Emotional and Motivational Variables in Elementary School Science Classrooms in Turkey

ERIC Educational Resources Information Center

Sakiz, Gonul

2017-01-01

Background: In recent research, affective learning environments and affective support have been receiving increasing attention for their roles in stimulating students' learning outcomes. Despite its raising importance, little is known about affective support in educational contexts in developing countries. Moreover, international student…

Strategy Makeover: K-W-L to T-H-C

ERIC Educational Resources Information Center

Crowther, David T.; Cannon, John

2004-01-01

For the past few decades the integration of literacy instruction has influenced the teaching of science in the elementary classroom--whether through traditional learning or as part of inquiry and hands-on methods. One reason: the ubiquitous K-W-L strategy. This popular literacy strategy is essentially a framework to guide students through a…

Physical Modeling in the Geological Sciences: An Annotated Bibliography. CEGS Programs Publication No. 16.

ERIC Educational Resources Information Center

Charlesworth, L. J., Jr.; Passero, Richard Nicholas

The bibliography identifies, describes, and evaluates devices and techniques discussed in the world's literature to demonstrate or stimulate natural physical geologic phenomena in classroom or laboratory teaching or research situations. The aparatus involved ranges from the very simple and elementary to the highly complex, sophisticated, and…

BioMusic in the Classroom: Interdisciplinary Elementary Science and Music Curriculum Development

ERIC Educational Resources Information Center

Carrier, Sarah; Wiebe, Eric N.; Gray, Patricia; Teachout, David

2011-01-01

Policymakers and industry leaders are calling for a 21st century education that is more interdisciplinary in nature, including the ability to solve problems and think creatively. Traditional teaching practices that present subjects as separate and distinct disciplines do not encourage students to make connections between subjects in school and in…

Understanding elementary teacher motivations for science fieldtrips

NASA Astrophysics Data System (ADS)

Kisiel, James

2005-11-01

This investigation sought to identify the motivations that comprise teachers' agendas when leading student fieldtrips to science museums or similar sites. A survey distributed to upper elementary teachers resulted in a variety of open-ended responses that were analyzed and coded to identify recurring themes. In addition, ten teachers planning to lead a school trip to a natural history museum were interviewed and observed. Interview and observation data were used to triangulate findings and refine descriptions of actual practice. Eight fieldtrip motivations were identified including to connect with the classroom curriculum, to provide a general learning experience, to encourage lifelong learning, to enhance interest and motivation, to provide exposure to new experiences, to provide a change in setting or routine, for enjoyment, and to meet school expectations. Results indicated that connecting to the classroom curriculum was an important consideration, although teachers had different interpretations of what this meant. Further examination of the teachers' agendas suggested the influence of different contexts, including that of the school and the museum site. These findings lead to suggestions for facilitating school visits to informal settings by considering the teachers' fieldtrip perspectives and agendas.

Effects of Engineering Design-Based Science on Elementary School Science Students' Engineering Identity Development across Gender and Grade

NASA Astrophysics Data System (ADS)

Capobianco, Brenda M.; Yu, Ji H.; French, Brian F.

2015-04-01

The integration of engineering concepts and practices into elementary science education has become an emerging concern for science educators and practitioners, alike. Moreover, how children, specifically preadolescents (grades 1-5), engage in engineering design-based learning activities may help science educators and researchers learn more about children's earliest identification with engineering. The purpose of this study was to examine the extent to which engineering identity differed among preadolescents across gender and grade, when exposing students to engineering design-based science learning activities. Five hundred fifty preadolescent participants completed the Engineering Identity Development Scale (EIDS), a recently developed measure with validity evidence that characterizes children's conceptions of engineering and potential career aspirations. Data analyses of variance among four factors (i.e., gender, grade, and group) indicated that elementary school students who engaged in the engineering design-based science learning activities demonstrated greater improvements on the EIDS subscales compared to those in the comparison group. Specifically, students in the lower grade levels showed substantial increases, while students in the higher grade levels showed decreases. Girls, regardless of grade level and participation in the engineering learning activities, showed higher scores in the academic subscale compared to boys. These findings suggest that the integration of engineering practices in the science classroom as early as grade one shows potential in fostering and sustaining student interest, participation, and self-concept in engineering and science.

STOP for Science! A School-Wide Science Enrichment Program

NASA Astrophysics Data System (ADS)

Slane, P.; Slane, R.; Arcand, K. K.; Lestition, K.; Watzke, M.

2012-08-01

Young students are often natural scientists. They love to poke and prod, and they live to compare and contrast. What is the fastest animal? Where is the tallest mountain on Earth (or in the Solar System)? Where do the colors in a rainbow come from? And why do baseball players choke up on their bats? Educators work hard to harness this energy and enthusiasm in the classroom but, particularly at an early age, science enrichment - exposure outside the formal classroom - is crucial to help expand science awareness and hone science skills. Developed under a grant from NASA's Chandra X-ray Center, "STOP for Science!" is a simple but effective (and extensible) school-wide science enrichment program aimed at raising questions about science topics chosen to capture student interest. Created through the combined efforts of an astrophysicist and an elementary school principal, and strongly recommended by NASA's Earth & Space Science product review, "STOP for Science" combines aesthetic displays of science topics accompanied by level-selected questions and extensive facilitator resources to provide broad exposure to familiar, yet intriguing, science themes.

Science Alive!: Connecting with Elementary Students through Science Exploration†

PubMed Central

Raja, Aarti; Lavin, Emily Schmitt; Gali, Tamara; Donovan, Kaitlin

2016-01-01

A novel program called Science Alive! was developed by undergraduate faculty members, K–12 school teachers, and undergraduate students to enrich science, technology, engineering, and mathematics (STEM) literacy at community schools located near the university. The ultimate goal of the program is to bolster the scientific knowledge and appreciation of local area students and community members and serve as a model for similar programs. Through the program, we observed that elementary school students made gains toward learning their grade-level science curricula after a hands-on learning experience and had fun doing these hands-on activities. Through the program, undergraduate students, working with graduate students and alumni, build scientific learning modules using explanatory handouts and creative activities as classroom exercises. This helps better integrate scientific education through a collaborative, hands-on learning program. Results showed that elementary school students made the highest learning gains in their performance on higher-level questions related to both forces and matter as a result of the hands-on learning modules. Additionally, college students enjoyed the hands-on activities, would consider volunteering their time at such future events, and saw the service learning program as a benefit to their professional development through community building and discipline-specific service. The science modules were developed according to grade-level curricular standards and can be used year after year to teach or explain a scientific topic to elementary school students via a hands-on learning approach. PMID:27158309

Graduate students teaching elementary earth science through interactive classroom lessons

NASA Astrophysics Data System (ADS)

Caswell, T. E.; Goudge, T. A.; Jawin, E. R.; Robinson, F.

2014-12-01

Since 2005, graduate students in the Brown University Department of Earth, Environmental, and Planetary Studies have volunteered to teach science to second-grade students at Vartan Gregorian Elementary School in Providence, RI. Initially developed to bring science into classrooms where it was not explicitly included in the curriculum, the graduate student-run program today incorporates the Providence Public Schools Grade 2 science curriculum into weekly, interactive sessions that engage the students in hypothesis-driven science. We will describe the program structure, its integration into the Providence Public Schools curriculum, and 3 example lessons relevant to geology. Lessons are structured to develop the students' ability to share and incorporate others' ideas through written and oral communication. The volunteers explain the basics of the topic and engage the students with introductory questions. The students use this knowledge to develop a hypothesis about the upcoming experiment, recording it in their "Science Notebooks." The students record their observations during the demonstration and discuss the results as a group. The process culminates in the students using their own words to summarize what they learned. Activities of particular interest to educators in geoscience are called "Volcanoes!", "The "Liquid Race," and "Phases of the Moon." The "Volcanoes!" lesson explores explosive vs. effusive volcanism using two simulated volcanoes: one explosive, using Mentos and Diet Coke, and one effusive, using vinegar and baking soda (in model volcanoes that the students construct in teams). In "Liquid Race," which explores viscosity and can be integrated into the "Volcanoes!" lesson, the students connect viscosity to flow speed by racing liquids down a ramp. "Phases of the Moon" teaches the students why the Moon has phases, using ball and stick models, and the terminology of the lunar phases using cream-filled cookies (e.g., Oreos). These lessons, among many others, bring basic science to life in second grade classrooms. We will be happy to share their story and to make our lesson plans available to a broader audience.

Exploring the impact of an industrial volunteer/school science partnership on elementary teaching strategies and attitudes about future science study: A case study

NASA Astrophysics Data System (ADS)

White, Michael Robert

This study reports the results of research designed to explore the impact of industrial volunteer/school partnerships on elementary science teaching behaviors and students' attitudes about future science study. Since these partnerships involved teachers and students in hands-on or laboratory-type science experiences, the study will add an elementary school component to a series of other studies conducted through the Science Education Program at Temple University that have addressed how to improve the learning outcomes from these experiences. Three suburban elementary schools were randomly selected by a single school district's science supervisor to be involved in this study. Two of the buildings were designated as the experimental schools and teachers worked directly with the researcher as an industrial partner. The third school served as a control with no organized industrial partner. An additional school building in a second suburban school district was selected to serve as a comparison school and a second scientist participated as an industrial volunteer. Unlike the researcher, this scientist had no formal training in science education. Each phase of the study included instruments piloted and reviewed by experienced elementary teachers for appropriateness or by objective experts in the field of education. A student attitude survey and selected tasks from the Inventory of Piagetian Developmental Tasks were administered to all students involved in the study. Empirical data collected through videotaped analysis using the validated Modified-Revised Vickery Science Teacher Behavior Inventory led to the development of a pattern of the most frequently used behaviors during elementary science instruction. A profile of each participating teacher was developed through the use of a validated attitude survey, notes taken during classroom interactions and from information collected during ethnographic interviews. A major conclusion drawn from this study is that neither type of partnership influenced the types of teaching behaviors used by elementary teachers during science instruction. Especially significant is that neither questioning wait-time nor level of questions asked was affected by the partnership experience. Furthermore, the partnership did not lead to teachers exhibiting a more constructivist-oriented approach to science instruction. However, teacher members of both partnerships expressed a strong wish for the partnership activities to continue.

A case study of an experienced teacher's beliefs and practice during implementation of an inquiry-based approach in her elementary science classroom

NASA Astrophysics Data System (ADS)

Martin, Anita Marie Benna

The purpose of this study was to examine the relationship between one teacher's beliefs and her practices. This study examined this relationship during the implementation of reform by the teacher in the area of science as recommended by the National Science Education Standards (NRC, 1996). This study was a single case study of one experienced elementary teacher who was implementing the Science Writing Heuristic (SWH) approach in her science classroom. The study's focus was on the relationship between the teacher's beliefs and her practice during this innovation, as well as the factors that influenced that relationship. Data were collected from multiple sources such as routinely scheduled interviews, classroom observations, researcher's fieldnotes, teacher's written reflections, professional development liaison reflections, student responses, video-tape analysis, think-aloud protocol, audio-tapes of student discourse, metaphor analysis, and Reformed Teacher Observation Protocol (RTOP) scores. Data analysis was conducted using two different approaches: constant comparative method and RTOP scores. Results indicate that a central belief of this teacher was her beliefs about how students learn. This belief was entangled with other more peripheral beliefs such as beliefs about the focus of instruction and beliefs about student voice. As the teacher shifted her central belief from a traditional view of learning to one that is more closely aligned with a constructivist' view, these peripheral beliefs also shifted. This study also shows that the teacher's beliefs and her practice were consistent and entwined throughout the study. As her beliefs shifted, so did her practice and it supports Thompson's (1992) notion of a dialectic relationship between teacher beliefs and practice. Additionally, this study provides implications for teacher education and professional development. As teachers implement reform efforts related to inquiry in their science classrooms, professional development should include opportunities for teachers to reflect on their beliefs about how students learn, in comparison to the beliefs that underlie the reform. Reflective components of professional development are necessary for shifts in teacher beliefs and could improve reform efforts in teachers' instructional practices. Teacher inservice programs should also include opportunities for preservice teachers to reflect upon their beliefs about how students learn.

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.

Social Effects of Integrated Classrooms and Resource Room/ Regular Class Placements on Elementary Students with Learning Disabilities.

ERIC Educational Resources Information Center

Madge, Sally; And Others

1990-01-01

Social status of learning-disabled (LD) elementary students served by the Integrated Classroom Model was compared to that of LD elementary students in a regular class with resource room support. Results suggest that, although both groups had lower social status than nondisabled peers, ICM students blended into the classroom better. (Author/PB)

The Elementary School Classroom. The Study of the Built Environment Through Student and Teacher Responses. The Elementary School and Its Population, Phase 2.

ERIC Educational Resources Information Center

Artinian, Vrej-Armen

An extensive investigation of elementary school classrooms was conducted through the collection and statistical analysis of student and teacher responses to questions concerning the educational environment. Several asepcts of the classroom are discussed, including the spatial, thermal, luminous, and aural environments. Questions were organized so…

Comparing Beginning and Experienced Teachers' Perceptions of Classroom Management Beliefs and Practices in Elementary Schools in Turkey

ERIC Educational Resources Information Center

Unal, Zafer; Unal, Aslihan

2009-01-01

The primary objective of this study was to investigate whether a difference in teachers' classroom management styles exists based on years of teaching experience. Data were collected from 282 elementary school teachers employed by 11 elementary schools in Turkey. The Attitudes and Beliefs on Classroom Control Inventory was used to collect the…

The Effect of a Professional Development Classroom Management Model on At-Risk Elementary Students' Misbehaviors

ERIC Educational Resources Information Center

Reglin, Gary; Akpo-Sanni, Joretta; Losike-Sedimo, Nonofo

2012-01-01

The problem in the study was that at-risk elementary school students had too many classroom disruptive behaviors. The purpose was to investigate the effect a Professional Development Classroom Management Model would have on reducing these students' misbehaviors. The study implemented a classroom management model to improve the classroom management…

Pura Vida: Teacher Experiences in a Science Education Study Abroad Course in Costa Rica

NASA Astrophysics Data System (ADS)

Medina, Stephanie Rae

The purpose of this study was to explore the experiences of classroom teachers who participated in a science-focused study abroad during their time as a preservice teacher and to explore how they are using their study abroad experiences in science curriculum planning and in classroom instruction. This study is guided by two research questions: 1) what are the study abroad experiences that have influenced classroom teachers; and, 2) how do classroom teachers incorporate study abroad experiences into science curriculum planning and instruction in the classroom? Participants were two in-service science teachers from schools located in the Southwestern United States. The participants were enrolled in the course, Environmental Science and Multicultural Experience for K-8 Teachers offered through the Department of Educational Leadership, Curriculum and Instruction during their time as preservice teachers. The course included a two-week study abroad component in Costa Rica. Participants spent their mornings observing a monolingual, Spanish-speaking elementary classroom followed by a faculty-led multicultural seminar. Afternoons during the study abroad experience were dedicated to field science activities such as quantifying plant and animal biodiversity, constructing elevation profiles, determining nutrient storage in soil, and calculating river velocity. Throughout the course students participated in science-focused excursions. A cross case study design was used to answer the two research questions guiding this dissertation study. Data collection included participant-created concept maps of the science experiences during the study abroad experience, in-depth interviews detailing the study abroad experience and classroom instruction, and participant reflective journal entries. Cross-caseanalysis was employed to explore the uniqueness of each participant's experience and commonalities between the cases. Trustworthiness was established by utilizing multiple sources of data, member checking, documenting the process of identifying themes from findings, and peer de-briefing. Four themes emerged via data analysis, they include: (1) experiencing science in Costa Rica, comprised of the categories of facilitated science experiences, collaborative grouping, and science stressors; (2) studying abroad in Costa Rica, containing the categories Costa Rica is your oyster, background of Costa Rica, foreground of Costa Rica, atmosphere of Costa Rica, and Costa Rican culture; (3) transferability of science experiences including the categories disposition of teaching, pedagogical knowledge, what you teach, and for whom you teach; and (4) the multicultural classroom made up of the categories Costa Rican classroom struggles, positive Costa Rican classroom climate, transferability of instructional approaches, and developing cultural competency. Implications for study abroad decision-makers and stakeholders are included. Additionally, recommendations for future research are also described. Preservice science teachers develop their knowledge of science, confidence to teach science, and ability to instruct students in the field of science in a multicultural classroom, as a product of science-focused study abroad opportunities.

Classroom Management through the Eyes of Elementary Teachers in Turkey: A Phenomenological Study

ERIC Educational Resources Information Center

Akin, Sibel; Yildirim, Ali; Goodwin, A. Lin

2016-01-01

This study aims to explore Turkish elementary teachers' (1) perceptions of classroom management, (2) classroom management problems they experience, (3) factors causing these problems, and (4) their classroom management practices. The study employed phenomenological research design in the qualitative tradition. The participants included 15…

Common-Sense Classroom Management: Surviving September and Beyond in the Elementary Classroom.

ERIC Educational Resources Information Center

Lindberg, Jill A.; Swick, April M.

This manual contains techniques for creating successful teaching and learning environments in diverse elementary classrooms. Using humor, drawings, and a conversational tone, it provides suggestions for teaching effectively and efficiently. Special highlights include five-steps-or-less strategies that can be adapted into any classroom, an outline…

Laptop Computers in the Elementary Classroom: Authentic Instruction with At-Risk Students

ERIC Educational Resources Information Center

Kemker, Kate; Barron, Ann E.; Harmes, J. Christine

2007-01-01

This case study investigated the integration of laptop computers into an elementary classroom in a low socioeconomic status (SES) school. Specifically, the research examined classroom management techniques and aspects of authentic learning relative to the student projects and activities. A mixed methods approach included classroom observations,…

Exploring elementary school teachers' perception of their role in teaching content literacy in the elementary science and social studies classrooms: A mixed methods study

NASA Astrophysics Data System (ADS)

Jones-Moore, Lisa Michelle

2011-12-01

This mixed-methods study explored third, fourth, and fifth grade teachers' perceptions of their role in teaching content literacy in the elementary science and social studies classroom. The rationale for this study was the growing number of studies questioning the reliance on the inoculation theory for content area literacy comprehension. The study was a mixed methods study so as to provide insight into the participants' thought processes in decision making and instructional planning. Data sources included timed instructional observations, tiered checklist to identify strategy instruction, and prompted critical reflections. The three-tiered observation instrument categorized strategies used by teachers in tiers according to the focus of the strategy. Tier I strategies were those identified as strategies good readers use, typically taught with narrative text. The inoculation theory posits these skills transfer to reading informational and expository text. Tier II strategies were those identified as strategies appropriate for informational or expository text. Use of these strategies acknowledged that narrative and informational/expository text require different strategies, but does not differentiate between expository text drawn from particular content area. Tier III strategies were those identified as strategies particularly suited to informational or expository text drawn from specific content areas. These strategies embody cognitive processes used to comprehend text drawn from specific content areas. The findings showed the participating teachers used a preferential Tier of strategy instruction. Some participants felt that reading comprehension was more important than content. They viewed reading as a subject instead of an integral part of science and social studies instruction.

Writing in science: Influences of professional development on teachers' beliefs, practices, and student performance

NASA Astrophysics Data System (ADS)

Fulton, Lori

Science education reform calls for learners to be engaged in hand-on, minds-on activities related to science. As a part of this reform effort, learners are encouraged to use writing as a means of documenting their work and developing their understandings. This qualitative case study employed the Conceptual Change Perspective and Sociocultural Perspective to examine the impact on three elementary teachers' beliefs, practices, and student outcomes, as they relate to science notebooks, based on their participation in a professional study group. Data sources included teacher and student interviews, video of the study group meetings, video of classroom lessons, and student work in the form of science notebooks and pre- and posttests. Results show that the study group discussions focused on the science notebook as a tool, the teacher's role, the students' struggle to write, and the content of the notebook. Individual cases were developed and then a cross-case analysis was conducted. Results of this analysis suggest that the longer a teacher is involved in a study group, the greater the impact on her beliefs and practices, which resulted in students being able to define a purpose for the notebook, having a higher percentage of the parts of a conclusion within their notebooks, and demonstrating an understanding of the scientific content. Based on the analysis, a substantive theory on the development of insightful implementation of science notebooks was developed. This study has implications for both the elementary classroom and teacher education programs in helping teachers learn reform-based practices that facilitate student learning. Finally, suggestions for future research are considered.

Relationships among selected physical science misconceptions held by preservice elementary teachers and four variables: Formal reasoning ability, working memory capacity, verbal intelligence, and field dependence/independence

NASA Astrophysics Data System (ADS)

Griffin, Leslie Little

The purpose of this study was to determine the relationship of selected cognitive abilities and physical science misconceptions held by preservice elementary teachers. The cognitive abilities under investigation were: formal reasoning ability as measured by the Lawson Classroom Test of Formal Reasoning (Lawson, 1978); working memory capacity as measured by the Figural Intersection Test (Burtis & Pascual-Leone, 1974); verbal intelligence as measured by the Acorn National Academic Aptitude Test: Verbal Intelligence (Kobal, Wrightstone, & Kunze, 1944); and field dependence/independence as measured by the Group Embedded Figures Test (Witkin, Oltman, & Raskin, 1971). The number of physical science misconceptions held by preservice elementary teachers was measured by the Misconceptions in Science Questionnaire (Franklin, 1992). The data utilized in this investigation were obtained from 36 preservice elementary teachers enrolled in two sections of a science methods course at a small regional university in the southeastern United States. Multiple regression techniques were used to analyze the collected data. The following conclusions were reached following an analysis of the data. The variables of formal reasoning ability and verbal intelligence were identified as having significant relationships, both individually and in combination, to the dependent variable of selected physical science misconceptions. Though the correlations were not high enough to yield strong predictors of physical science misconceptions or strong relationships, they were of sufficient magnitude to warrant further investigation. It is recommended that further investigation be conducted replicating this study with a larger sample size. In addition, experimental research should be implemented to explore the relationships suggested in this study between the cognitive variables of formal reasoning ability and verbal intelligence and the dependent variable of selected physical science misconceptions. Further research should also focus on the detection of a broad range of science misconceptions among preservice elementary teachers.

A study to define and verify a model of interactive-constructive elementary school science teaching

NASA Astrophysics Data System (ADS)

Henriques, Laura

This study took place within a four year systemic reform effort collaboratively undertaken by the Science Education Center at the University of Iowa and a local school district. Key features of the inservice project included the use of children's literature as a springboard into inquiry based science investigations, activities to increase parents' involvement in children's science learning and extensive inservice opportunities for elementary teachers to increase content knowledge and content-pedagogical knowledge. The overarching goal of this elementary science teacher enhancement project was to move teachers towards an interactive-constructivist model of teaching and learning. This study had three components. The first was the definition of the prototype teacher indicated by the project's goals and supported by science education research. The second involved the generation of a model to show relationships between teacher-generated products, demographics and their subsequent teaching behaviors. The third involved the verification of the hypothesized model using data collected on 15 original participants. Demographic information, survey responses, interview and written responses to scenarios were among the data collected as source variables. These were scored using a rubric designed to measure constructivist practices in science teaching. Videotapes of science teaching and revised science curricula were collected as downstream variables and scored using an the ESTEEM observational rubric and a rubric developed for the project. Results indicate that newer teachers were more likely to implement features of the project. Those teachers who were philosophically aligned with project goals before project involvement were also more likely to implement features of the project. Other associations between reported beliefs, planning and classroom implementations were not confirmed by these data. Data show that teachers reported higher levels of implementation than their classroom teaching indicated. Qualitative analysis indicated teachers who were more likely to implement the goals of this project were flexible, spontaneous, and able to give students more choices and responsibilities for their own learning. These teachers routinely used children's ideas and interests to guide instruction. Recommendations for future inservice are included. Discussion centers around elements of time, teacher input, teacher reflection, teachers as leaders and leaders' modeling of advocated practices.

Occurrence of Bacteria and Viruses on Elementary Classroom Surfaces and the Potential Role of Classroom Hygiene in the Spread of Infectious Diseases

ERIC Educational Resources Information Center

Bright, Kelly R.; Boone, Stephanie A.; Gerba, Charles P.

2010-01-01

The presence of microorganisms on common classroom contact surfaces (fomites) was determined to identify the areas most likely to become contaminated. Six elementary classrooms were divided into control and intervention groups (cleaned daily with a quaternary ammonium wipe) and tested for heterotrophic bacteria. Three classrooms were also tested…

Nurturing Mathematical Promise in a Regular Elementary Classroom: Exploring the Role of the Teacher and Classroom Environment

ERIC Educational Resources Information Center

Dimitriadis, Christos

2016-01-01

This article presents findings from a case study of an in-classroom program based on ability grouping for Year 2 (ages 6-7) primary (elementary) children identified as high ability in mathematics. The study examined the role of classroom setting, classroom environment, and teacher's approach in realizing and developing mathematical promise. The…

School Science Comes Alive. Phase Three

NASA Technical Reports Server (NTRS)

Hartline, Frederick F.

1997-01-01

Phase 3 of the School Science Comes Alive Program (S(sup 2)CAP) created an exciting, science - enrichment experience for third, fourth and fifth graders and their teachers and enhanced the science-teaching skills of teacher teams at each of four participating elementary schools on Virginia's Peninsula. The schools involved enroll a majority of Black students, many of whom are from economically disadvantaged households. Designed to build on the highly successful S(sup 2)CAP program of the preceding two years, this project brought college faculty together with classroom teachers and trained volunteers in a cooperative effort to make a lasting difference in the quality of science education at the four schools. In total, this program touched approximately 1000 the school children, more than half of whom are black, giving them direct and indirect exposure to the spirit of inquiry and adventure of the world-wide science community. In S(sup 2)CAP Phase 3, a large measure of responsibility was placed on the classroom teachers, thus creating a more sustainable partnership between college faculty and grade school teacher. Our college physics professors coached and supported teams of teachers from each school at intensive training workshops. A volunteer program provided each teacher with one or more trained volunteers to assist in class with the hands-on activities that have been central to the S2CAP program. Most of the equipment for these activities was constructed during the workshops by the teachers and volunteers from low cost materials provided by the program. Two types of volunteers were enlisted: science smart black college students and technically trained retirees (many of whom are ex-NASA employees). One goal of this program was to increase the numbers of minority students who see science as an interesting and exciting subject, to make the science period a time which students look forward to in the school day. Such an attitude is expected to translate naturally into a higher interest in science and engineering as a career for these students. A second goal was to create a sustainable improvement in the way science is taught at the elementary level. By the end of the program we expected that our teachers would be significantly more self reliant in using hands-on-activities as a part of their science curricula than they were prior to their involvement with S2CAP. In summary, S2CAP Phase 3 offered intensive training workshops for teachers and supporting volunteers followed by stimulating hands-on activities in the classroom for the children. These components combined to amplify the experience, enthusiasm, and ideas of our scientists in a way that complements the normal elementary school curriculum in each of the two school systems involved.

Anthropology for the Classroom. The Social Science Teacher; Volume 3 Number 1, 1973.

ERIC Educational Resources Information Center

Townley, Charles, Ed.

This report of a conference attended by teachers and anthropologists concerns itself with the desirability and practicalities of teaching anthropology at the elementary and secondary levels in Britain. The papers reflect the varied objectives of a group trying to introduce a new element into school curricula. The president of the Royal…

Science and Math through Role-Play Centers in the Elementary School Classroom.

ERIC Educational Resources Information Center

Jarrett, Olga S.

1997-01-01

Describes role-play centers in which children can do math problems, invent, experiment, write with a purpose, and act out adult career roles. Examples of centers include a doctor's office, a supermarket, a fix-it or inventor's workshop, a post office, a pet store, a zoo, a veterinary clinic, a museum, and a restaurant. (DKM)

Sailing toward Understanding Surface Currents: A Science and Geography Integration Activity for Upper-Elementary Students

ERIC Educational Resources Information Center

Eidietis, Laura; Rutherford, Sandra

2009-01-01

In the activities presented in this article, students mimic real scientists while constructing predictions and scientific explanations about surface currents. The activities are inspired by and couched within true scientific inquiries regarding the ocean and the North American Great Lakes. Students engage in a classroom inquiry and use map-reading…

"A Sketch Is Like a Sentence": Curriculum Structures that Support Teaching Epistemic Practices of Science

ERIC Educational Resources Information Center

Enfield, Mark; Smith, Edward L.; Grueber, David J.

2008-01-01

This research reports on a study of curriculum materials development and use compared with the use of existing curriculum materials in an elementary classroom. The research explored the effect of explicit attention to epistemic practices in curriculum materials and the enactment of those materials. Epistemic practices include asking questions,…

Pedagogical Practices to Support Classroom Cultures of Scientific Inquiry

ERIC Educational Resources Information Center

Herrenkohl, Leslie Rupert; Tasker, Tammy; White, Barbara

2011-01-01

This article examines the pedagogical practices of two science inquiry teachers and their students using a Web-based system called Web of Inquiry (WOI). There is a need to build a collective repertoire of pedagogical practices that can assist elementary and middle school teachers as they support students to develop a complex model of inquiry based…

Can Music in Schools Live up to Its Promise?

ERIC Educational Resources Information Center

Whyte, Ingrid; Mould, Norman

2011-01-01

Music helps to bring out the best in young people. It nourishes self-esteem and keeps them engaged. The starting point for any good school program is the teacher, whether that program teaches English, math, science, history, arts--or music. So why is it that, at the elementary level, we have so many generalist classroom teachers--with no…

Increasing Early Opportunities in Engineering for Advanced Learners in Elementary Classrooms: A Review of Recent Literature

ERIC Educational Resources Information Center

Dailey, Debbie; Cotabish, Alicia; Jackson, Nykela

2018-01-01

Present and future challenges in our society demand a solid science, technology, engineering, and mathematics (STEM) knowledge base, innovative thinking, and the ability to ask the right questions to generate multiple solutions. To prepare innovators to meet these challenges, we must recognize and develop their talents. This advancement and growth…

Connecting Kids and Nature: Lessons to Ignite Learning and Appreciation of the World around Us

ERIC Educational Resources Information Center

Campbell, Ashley; Williams, Judy

2015-01-01

This article describes a semester-long project developed by the authors to create a positive connection between children and nature. The project integrated reading instruction with science activities to emphasize the natural world in the lives of children. This intervention involved the authors visiting an elementary classroom five times over the…

Is "Learning by Doing" Important? A Study of Doing-Based Learning

ERIC Educational Resources Information Center

Moye, Johnny J.; Dugger, William E., Jr.; Starkweather, Kendall N.

2014-01-01

This is the second in a series of articles discussing the "Doing-Based Learning" study. The purpose of this study is to determine the extent to which U.S. public school elementary and secondary education science, technology, engineering, and mathematics (STEM) students are doing activities in their classrooms. The first article (Moye,…

Using Technology to Enhance the Art and Science of Teaching Framework: A Descriptive Case Study

ERIC Educational Resources Information Center

Haystead, Mark W.; Magaña, Anthony J.

2013-01-01

Teachers in a Southern California, high-needs, low-achieving elementary school participated in a three-year period of action research beginning in the 2009-2010 academic year. As part of the action research, teachers received 40 hours of in-person professional development, classroom coaching, and online support to improve their understanding and…

A Thematic Literary Unit: Using Literature across the Curriculum in an Elementary Classroom.

ERIC Educational Resources Information Center

Vivian, Diane M.

1990-01-01

"Think Big" is a thematic literary unit, using literature about elephants in a holistic way and attempting to cross the curriculum into the content areas of science and math. It is a way of expanding the basal reading series and providing appropriate and supportive instruction in a cooperative, more interactive learning environment. To…

"Me? Teach Science?" Exploring EC-4 Pre-Service Teachers' Self Efficacy in an Inquiry-Based Constructivist Physics Classroom

ERIC Educational Resources Information Center

Narayan, Ratna; Lamp, David

2010-01-01

In this qualitative and interpretive study, we investigated factors that influenced elementary preservice teachers' self-efficacy in a constructivist, inquiry-based physics class. Bandura's (1977) theory of social learning was used as a basis to examine preservice teacher's self-efficacy. Participants included 70 female EC-4 preservice teachers…

Social Studies, Book II: A Bilingual Multicultural Guide, English-Spanish.

ERIC Educational Resources Information Center

Cedillo, Gustavo F.

This is the second of two social science guides designed for the bilingual, multicultural, upper elementary classroom. The guide may be used independently or as a supplement to other social studies programs. Activities may be done in writing or orally, in English or Spanish, with the entire class, in small groups, or individually. Eight curriculum…

The Interplay of Firsthand and Text-Based Investigations in Science Education. Ciera Report.

ERIC Educational Resources Information Center

Palincsar, Annemarie Sullivan; Magnusson, Shirley J.

This paper presents the results of a study concerning the use of text in support of firsthand scientific inquiry instruction in the early elementary grades. A partial transcript of two teaching sessions in which an expert classroom teacher incorporated text into her inquiry instruction is investigated. The knowledge gained from these sessions…

The World's Best Places: Classroom Explorations in Geography & Environmental Science.

ERIC Educational Resources Information Center

Graf, Mike

This book offers an alternative to traditional upper elementary and middle school lesson plans, using 32 of the world's national parks as a springboard for activities. The activities in the book are divided into chapters that deal with particular topics of study: wildlife, plant life, geography, and geology. Includes step-by-step instructions that…

Listen to Our Salmon: Forests, Rivers and Oceans are Connected.

ERIC Educational Resources Information Center

Mueller, Andrea; Brown, Rod

1998-01-01

A university-based researcher and a grade seven teacher collaborated to plan a science curriculum that would help elementary school students discover the world of salmon and understand its life cycle. Describes key components of the salmon-enhancement program and river-health project. A student's record of hatching chum fry in the classroom is…

What do primary students know about science, scientists and how they do their work?

NASA Astrophysics Data System (ADS)

Bartels, Selina L.

The teaching of scientific literacy is the primary goal of elementary science education. Scientific literacy is composed of the overall understanding of what science is and how scientific knowledge is developed. The purpose of this study was to see if elementary students' understandings of science, scientists and how scientists do their work changes from grade one to grade five of elementary school. Furthermore, the study attempts to determine whether there is a difference in scientific literacy between students taught using a textbook curriculum versus a kit-based curriculum. The study draws on a sample of 338 students from 18 different classrooms situated in six different schools in both urban and suburban areas of a large Midwestern city. Students' understandings of science, scientists and how they do their work was measured through a valid and reliable oral protocol entitled Young Children's Views of Science (YCVS) (Lederman, J., Bartels, Lederman, & Ganankkan, 2014). The YCVS assesses students' understandings of the aspects of scientific inquiry (SI) and the nature of science (NOS) that young elementary students are able to understand. These aspects are; science, scientists, multiple methods, observation/inference, begins with a question, empirical, subjectivity, tentativeness and creativity. The YCVS was administered orally for grade one students, and a paper-and-pencil version was given to grades three and five. Results indicated that there are very few gains in NOS and SI understandings between grades one and five in the schools included in this study. None of the schools in this study made significant gains for all of the nine aspects measured in this study. Examining curriculum's affect on NOS and SI understandings, understanding of only one aspect was significantly impacted by curriculum differences. Subjectivity understanding was impacted by kit-based instruction. Overall, students' understandings of science, scientists and how they do their work did not significantly change from grade one to grade five regardless of what type of curriculum they followed. This study shows that students' scientific literacy is not being developed throughout elementary school. Therefore, the teaching of scientific literacy in an explicit and reflective manner should be the focus of preservice elementary school education.

Do Inquiring Minds Have Positive Attitudes? The Science Education of Preservice Elementary Teachers

PubMed Central

Riegle-Crumb, Catherine; Morton, Karisma; Moore, Chelsea; Chimonidou, Antonia; Labrake, Cynthia; Kopp, Sacha

2016-01-01

Due to their potential impact on students' cognitive and non-cognitive outcomes, the negative attitudes towards science held by many elementary teachers are a critical issue that needs to be addressed. This study focuses on the science education of pre-service elementary teachers with the goal of improving their attitudes before they begin their professional lives as classroom teachers. Specifically, this study builds on a small body of research to examine whether exposure to inquiry-based science content courses that actively involve students in the collaborative process of learning and discovery can promote a positive change in attitudes towards science across several different dimensions. To examine this issue, surveys and administrative data were collected from over 200 students enrolled in the Hands on Science (HoS) program for pre-service teachers at the University of Texas at Austin, as well as more than 200 students in a comparison group enrolled in traditional lecture-style classes. Quantitative analyses reveal that after participating in HoS courses, pre-service teachers significantly increased their scores on scales measuring confidence, enjoyment, anxiety, and perceptions of relevance, while those in the comparison group experienced a decline in favorable attitudes to science. These patterns offer empirical support for the attitudinal benefits of inquiry-based instruction and have implications for the future learning opportunities available to students at all education levels. PMID:27667862

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.

Modeling Aspects Of Nature Of Science To Preservice Elementary Teachers

NASA Astrophysics Data System (ADS)

Ashcraft, Paul

2007-01-01

Nature of science was modeled using guided inquiry activities in the university classroom with elementary education majors. A physical science content course initially used an Aristotelian model where students discussed the relationship between distance from a constant radiation source and the amount of radiation received based on accepted ``truths'' or principles and concluded that there was an inverse relationship. The class became Galilean in nature, using the scientific method to test that hypothesis. Examining data, the class rejected their hypothesis and concluded that there is an inverse square relationship. Assignments, given before and after the hypothesis testing, show the student's misconceptions and their acceptance of scientifically acceptable conceptions. Answers on exam questions further support this conceptual change. Students spent less class time on the inverse square relationship later when examining electrostatic force, magnetic force, gravity, and planetary solar radiation because the students related this particular experience to other physical relationships.

Science Journals in the Garden: Developing the Skill of Observation in Elementary Age Students

NASA Astrophysics Data System (ADS)

Kelly, Karinsa Michelle

The ability to make and record scientific observations is critical in order for students to engage in successful inquiry, and provides a sturdy foundation for children to develop higher order cognitive processes. Nevertheless, observation is taken for granted in the elementary classroom. This study explores how linking school garden experience with the use of science journals can support this skill. Students participated in a month-long unit in which they practiced their observation skills in the garden and recorded those observations in a science journal. Students' observational skills were assessed using pre- and post-assessments, student journals, and student interviews using three criteria: Accuracy, Detail, and Quantitative Data. Statistically significant improvements were found in the categories of Detail and Quantitative Data. Scores did improve in the category of Accuracy, but it was not found to be a statistically significant improvement.

Elementary Teacher's Conceptions of Inquiry Teaching: Messages for Teacher Development

NASA Astrophysics Data System (ADS)

Ireland, Joseph E.; Watters, James J.; Brownlee, Jo; Lupton, Mandy

2012-02-01

This study explored practicing elementary school teacher's conceptions of teaching in ways that foster inquiry-based learning in the science curriculum (inquiry teaching). The advocacy for inquiry-based learning in contemporary curricula assumes the principle that students learn in their own way by drawing on direct experience fostered by the teacher. That students should be able to discover answers themselves through active engagement with new experiences was central to the thinking of eminent educators such as Pestalozzi, Dewey and Montessori. However, even after many years of research and practice, inquiry learning as a referent for teaching still struggles to find expression in the average teachers' pedagogy. This study drew on interview data from 20 elementary teachers. A phenomenographic analysis revealed three conceptions of teaching for inquiry learning in science in the elementary years of schooling: (a) The Experience-centered conception where teachers focused on providing interesting sensory experiences to students; (b) The Problem-centered conception where teachers focused on engaging students with challenging problems; and (c) The Question-centered conception where teachers focused on helping students to ask and answer their own questions. Understanding teachers' conceptions has implications for both the enactment of inquiry teaching in the classroom as well as the uptake of new teaching behaviors during professional development, with enhanced outcomes for engaging students in Science.

What are the Effects of Implementing Learning-Focused Strategies in Biology and Physical Science Classrooms?

NASA Astrophysics Data System (ADS)

Simmons, Robin

The objective of this study was to determine if Learning-Focused Strategies (LFS) implemented in high school science courses would affect student achievement and the pass rate of biology and physical science Common District Assessments (CDAs). The LFS, specific teaching strategies contained in the Learning-Focused Strategies Model (LFSM) Program were researched in this study. The LFSM Program provided a framework for comprehensive school improvement to those schools that implemented the program. The LFSM Program provided schools with consistent training in the utilization of exemplary practices and instruction. A high school located in the suburbs of Atlanta, Georgia was the focus of this investigation. Twelve high school science classrooms participated in the study: six biology and six physical science classes. Up-to-date research discovered that the strategies contained in the LFSM Program were research-based and highly effective for elementary and middle school instruction. Research on its effectiveness in high school instruction was the main focus of this study. This investigation utilized a mixed methods approach, in which data were examined qualitatively and quantitatively. Common District Assessment (CDA) quantitative data were collected and compared between those science classrooms that utilized LFS and those using traditional instructional strategies. Qualitative data were generated through classroom observations, student surveys, and teacher interviews. Individual data points were triangulated to determine trends of information reflecting the effects of implementing LFS. Based on the data collected in the research study, classrooms utilizing LFS were more successful academically than the classrooms using traditional instructional methods. Derived from the quantitative data, students in LFS classrooms were more proficient on both the biology and physical science Unit 1 CDAs, illustrating the effectiveness of LFS in the science classroom. Key terms: Cognitive teaching strategies, College readiness, Common District Assessments (CDAs), Concept maps, Constructivism, Curriculum, Differentiated Instruction, Instruction, Formative assessments, Learning-Focused Strategies (LFS), Learning-Focused Strategies Model (LFSM), No Child Left Behind (NCLB), Post-secondary institution, Remediation courses, School improvement grant, School reform, Secondary institution, Traditional instructional strategies.

Introducing a New Elementary GLOBE Book on Climate: Supporting Educators and Students in their Understanding of the Concepts Underlying Climate and Climate Change

NASA Astrophysics Data System (ADS)

Stanitski, D.; Hatheway, B.; Gardiner, L. S.; Taylor, J.; Chambers, L. H.

2016-12-01

Much of the focus on climate literacy in K-12 occurs in middle and high school, where teachers and students can dig into the science in some depth. It is important, however, to introduce this topic at an early age, building on a child's natural curiosity about the world around them - but without overwhelming them with frightening climate change impacts. In some U.S. school systems, a recent focus on standardized testing has crowded out science instruction in order to bring up literacy scores. To give teachers a resource to maintain some science instruction under these conditions, a series of Elementary GLOBE books have been developed. These fictional stories describe sound science and engineering practices that are essential for students to learn the process of science while expanding literacy skills, strongly encouraged in the Next Generation Science Standards (NGSS). The main concepts developed in a new Elementary GLOBE book on climate, titled "What in the World Is Happening to Our Climate?", will be introduced in this presentation. This book complements six other Earth System Science modules within the Elementary GLOBE curriculum and is freely available on the GLOBE website (www.globe.gov/elementaryglobe). The book discusses the concept that climate is changing in different ways and places around the world, and what happens to the climate in one place affects other locations across the globe. Supporting ideas clarify the difference between weather and climate, introduce climate science concepts, reveal the impacts of sea level rise, and help students understand that, while humans are contributing to climate change, they can also participate in solutions that address this challenge. Accompanying teacher's notes and companion classroom activities will be described to help elementary school teachers understand how to approach the subject of climate change with their students.

Pre-college experiences in and out of the classroom lead to first-year barriers

NASA Astrophysics Data System (ADS)

Reed, D. E.; Kaplita, E.; McKenzie, D. A.; Jones, R.; May, L. W.

2015-12-01

Students often enter college with preconceived notions about science. These misconceptions, coupled with a potential for a limited number of science classes during college for non-science majors, can make correcting misconceptions a very daunting challenge. In order to efficiently commutate climate science in a limited number of science classes, instructors need to understand the student experiences that have created their preconceived notions. In many cases, a lack of data about student's experiences leads to instructors simply guessing at how students are thinking about and interacting with science. Student surveys were used in our work to quantify pre-college experiences, both in and out of the classroom, in order to examine the connection to both academic major and choice of college or university students attended. Surveys were given to nearly 400 students across 4 different schools in the Oklahoma City Metro area. The location of students (rural or urban) affected science experiences as well as what types of actives (local libraries, museums, or parks) were available to the students. Connections between the timing of experience (elementary through high school) and the type of experience (in the classroom, with family/friends, or on their own) may influence choice of college or university as well as academic major. A better understating of positive student science experiences will allow instructors to better tailor their pedagogy and facilitate better connections between climate science and students.

A case study of systemic curricular reform: A forty-year history

NASA Astrophysics Data System (ADS)

Laubach, Timothy Alan

What follows is a description of the development of a particular inquiry-based elementary school science curriculum program and how its theoretical underpinnings positively influenced a school district's (K-12) science program and also impacted district- and state-wide curriculum reform initiatives. The district's science program has evolved since the inception of the inquiry-based elementary school science curriculum reform forty years ago. Therefore, a historical case study, which incorporated grounded theory methodology, was used to convey the forty-year development of a science curriculum reform effort and its systemic influences. Data for this study were collected primarily through artifacts, such as technical and non-technical documents, and supported and augmented with interviews. Fifteen people comprised the interview consortium with professional responsibilities including (a) administrative roles, such as superintendents, assistant superintendents, principals, and curriculum consultants/coordinators; (b) classroom roles, such as elementary and secondary school teachers who taught science; (c) partnership roles, such as university faculty who collaborated with those in administrative and classroom positions within the district; and (d) the co-director of SCIS who worked with the SCIS trial center director. Data were analyzed and coded using the constant comparative method. The analysis of data uncovered five categories or levels in which the curriculum reform evolved throughout its duration. These themes are Initiation, Education, Implementation, Confirmation, and Continuation. These five categories lead to several working hypotheses that supported the sustaining and continuing of a K-12 science curriculum reform effort. These components are a committed visionary; a theory base of education; forums promoting the education of the theory base components; shared-decision making; a university-school partnership; a core group of committed educators and teachers; evidences of success; national and state reform initiatives; a core group of administrators; longevity of the science program; district support (philosophical, financial, and emotional); and community support all contributed to the initiation, education, implementation, confirmation, and the continuation of the systemic curricular reform. The underlying component, or grounded theory generated by the study, that ties these experiences together is the "theory base" that concurrently evolved in the local school district and in a nearby university.

Focus on Elementary: Love, Engagement, Support, and Consistency: A Recipe for Classroom Management

ERIC Educational Resources Information Center

Prior, Jennifer

2014-01-01

Classroom management is perhaps one of the most difficult aspects of an elementary teacher's job. Most focus on discipline when they think about managing a classroom, but much more is involved. Without an effectively managed classroom, teachers face a loss of instructional time, and experience stress and feelings of inadequacy (Sayeski &…