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1.
Julie A. Bianchini 《Cultural Studies of Science Education》2008,3(4):799-810
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.
相似文献
Julie A. BianchiniEmail: |
2.
Christina V. Schwarz Jason Meyer Ajay Sharma 《Journal of Science Teacher Education》2007,18(2):243-269
This study infused computer modeling and simulation tools in a 1-semester undergraduate elementary science methods course
to advance preservice teachers’ understandings of computer software use in science teaching and to help them learn important
aspects of pedagogy and epistemology. Preservice teachers used computer modeling and simulation tools within their own science
investigations; discussed general technology issues; and explored, evaluated, and taught their peers about a particular modeling
tool. Preservice teachers expanded their vision of the software available and the role that software can play in science teaching,
but desired fun, easy-to-use software with scientifically accurate information within a clear, familiar learning task. Such
conflict provided a fruitful platform for discussion and for potentially advancing preservice teachers’ pedagogical and epistemological
understandings.
相似文献
Christina V. SchwarzEmail: |
3.
Catherine Milne Susan Kirch Sreyashi Jhumki Basu Mary Leou Pamela Fraser-Abder 《Cultural Studies of Science Education》2008,3(2):417-434
We engage in a metalogue based on eight papers in this issue of Cultural Studies of Science Education that review the state of conceptual change research and its possible affect on the teaching and learning of science. Our
discussion addresses three aspects of conceptual change research: theoretical, methodological, and practical, as we discuss
conceptual change research in light of our experiences as science educators. Finally, we examine the implications of conceptual
change research for the teachers and students with whom we work.
相似文献
Catherine MilneEmail: |
4.
Eileen Carlton Parsons 《Cultural Studies of Science Education》2008,3(1):209-216
This article highlights the transformative contributions of Mary Monroe Atwater to the field of science education. Influenced
by worldviews shaped by a segregated macro-society and the privileges of a micro-society, Mary stood against oppression in
the early years of her academic career by desegregating academic settings and being the first and only African American in
varied arenas for many years. As an aspiring academic, Mary challenged dominant paradigms and as an activist academic, she
changed the landscape of science education. She broadened the knowledge base through scholarship and praxis and diversified
the science education community through personal and professional efforts that were pioneering in nature.
Eileen Carlton Parsons is an assistant professor at The University of North Carolina at Chapel Hill. The contexts in which the science teaching and learning of African Americans occur constitute the core of her research interests. She examines the educative process with respect to culture and race. 相似文献
Eileen Carlton ParsonsEmail: |
Eileen Carlton Parsons is an assistant professor at The University of North Carolina at Chapel Hill. The contexts in which the science teaching and learning of African Americans occur constitute the core of her research interests. She examines the educative process with respect to culture and race. 相似文献
5.
Jennifer D. Adams Lynn U. Tran Preeti Gupta Helen Creedon-O’Hurley 《Cultural Studies of Science Education》2008,3(2):435-449
This article presents a metalogue discussion about the two focus articles and the six associated review essays on the topic
of conceptual change as it applies to research, and science teaching and learning in museum settings. Through the lenses of
a sociocultural perspectives of learning we examine the applicability of the ideas presented in the forum for museums and
museum educators. First we reflect on the role that emotions can play in concept development; second, we reflect on the role
of language, talk, and gestures to concept development and conceptual change in the short-lived nature of experiences and
conversations in museums; and third, we consider the nature of objects as representations of science content in museum settings.
Jennifer D. Adams is an assistant professor of science education at Brooklyn College, CUNY. She did her doctoral dissertation at the Graduate Center, CUNY on museum-based teacher education at the American Museum of Natural History. Her research focuses on informal science teaching and learning, museum education, and culturally relevant science teaching and learning. Lynn U. Tran received her PhD in science education at North Carolina State University, and recently finished a post-doctoral fellowship with the Center for Informal Learning and Schools at King’s College London. She is currently a Research Specialist with the Center for Research, Evaluation, and Assessment at the Lawrence Hall of Science at the University of California, Berkeley. Her research focuses on the pedagogical practices and professional development of science educators who teach in museums. Preeti Gupta is the Senior Vice President of Education and Public Programs at the New York Hall of Science. She is responsible for all programs and projects in the following divisions: Science Career Ladder, the Explainers who serve as interpretation staff, Professional Development, K-12 Student Programs, Digital Learning Programs, Science Technology Library and Public Programs. Ms. Gupta is a graduate of the Science Career Ladder, starting her career in museum education as a high school student. She is currently pursuing a PhD in Urban Education at the CUNY Graduate Center. Helen Creedon-O’Hurley is a secondary science educator in New York City’s public schools. She is the president of the Science Council of New York City, a science educator organization, and is in the doctoral program in urban education at the Graduate Center, CUNY. 相似文献
Jennifer D. AdamsEmail: |
Jennifer D. Adams is an assistant professor of science education at Brooklyn College, CUNY. She did her doctoral dissertation at the Graduate Center, CUNY on museum-based teacher education at the American Museum of Natural History. Her research focuses on informal science teaching and learning, museum education, and culturally relevant science teaching and learning. Lynn U. Tran received her PhD in science education at North Carolina State University, and recently finished a post-doctoral fellowship with the Center for Informal Learning and Schools at King’s College London. She is currently a Research Specialist with the Center for Research, Evaluation, and Assessment at the Lawrence Hall of Science at the University of California, Berkeley. Her research focuses on the pedagogical practices and professional development of science educators who teach in museums. Preeti Gupta is the Senior Vice President of Education and Public Programs at the New York Hall of Science. She is responsible for all programs and projects in the following divisions: Science Career Ladder, the Explainers who serve as interpretation staff, Professional Development, K-12 Student Programs, Digital Learning Programs, Science Technology Library and Public Programs. Ms. Gupta is a graduate of the Science Career Ladder, starting her career in museum education as a high school student. She is currently pursuing a PhD in Urban Education at the CUNY Graduate Center. Helen Creedon-O’Hurley is a secondary science educator in New York City’s public schools. She is the president of the Science Council of New York City, a science educator organization, and is in the doctoral program in urban education at the Graduate Center, CUNY. 相似文献
6.
7.
Since many teachers and students recognize other kinds of knowledge (faith) based on other ways of knowing, consideration
of these realities is appropriate for the science education community. Understanding the multitude of ways that clergy view
relationships between science and faith (i.e. alternative ways of knowing) would assist in understanding various ways that
people address complex issues arising from ideas about science and faith. We administered a questionnaire composed of multiple-choice
and short answer items to 63 United Methodist ministers. Findings included (1) that formal, organized faith contexts (e.g.
church services) serve as informal science education opportunities, (2) participants demonstrated considerable diversity regarding
the types of relationships developed between science and faith, and (3) participants recognized a need exists for better understandings
of science and its relationship to faith for them, their colleagues, and their congregations.
相似文献
Daniel L. Dickerson (Corresponding author)Email: |
Karen R. DawkinsEmail: |
John E. PenickEmail: |
8.
Compatibility between cultural studies and conceptual change in science education: there is more to acknowledge than to fight straw men! 总被引:1,自引:0,他引:1
In this response, we attempt to clarify our position on conceptual change, state our position on mental models being a viable
construct to represent learning, indicate important issues from the social cultural perspective that can inform our work on
conceptual change and lastly comment on issues that we consider to be straw men. Above all we argue that there is no best
theory of teaching and learning and argue for a multiple perspective approach to understanding science teaching and learning.
David F. Treagust is a professor of science education at Curtin University of Technology in Perth, Western Australia where he teaches courses in campus-based and international programs related to teaching and learning science. His research interests include understanding students’ ideas about science concepts and how these ideas relate to conceptual change, the design of curricula and teachers’ classroom practices. Reinders Duit is a professor of physics education at the Leibniz Institute for Science Education (IPN) at the University of Kiel, the Central Institute for Science Education Research in Germany. A major concern of his work has been teaching and learning science from conceptual change perspectives. More recently, his work includes video-based studies on the practice of science instruction as well as teacher professional development. 相似文献
Reinders DuitEmail: |
David F. Treagust is a professor of science education at Curtin University of Technology in Perth, Western Australia where he teaches courses in campus-based and international programs related to teaching and learning science. His research interests include understanding students’ ideas about science concepts and how these ideas relate to conceptual change, the design of curricula and teachers’ classroom practices. Reinders Duit is a professor of physics education at the Leibniz Institute for Science Education (IPN) at the University of Kiel, the Central Institute for Science Education Research in Germany. A major concern of his work has been teaching and learning science from conceptual change perspectives. More recently, his work includes video-based studies on the practice of science instruction as well as teacher professional development. 相似文献
9.
Tamara Holmlund Nelson 《Journal of Science Teacher Education》2008,19(3):235-254
Preservice teachers in a K–8 science methods course used guided video reflection to examine their interactions with children
during science teaching. This inquiry approach helped preservice teachers identify and respond to gaps between their beliefs
and intentions about teaching all children and their enactment of those beliefs. The experience of teaching a science lesson
and then viewing it multiple times through a critical framework provided an opportunity for preservice teachers to recognize
hidden assumptions, unexamined behaviors, and the unintentional meanings they may have conveyed to children. This encouraged
them to think more critically about their roles as teachers in creating spaces where all children have access to quality science
learning experiences.
相似文献
Tamara Holmlund NelsonEmail: |
10.
The Impact of an Engineering Design Curriculum on Science Reasoning in an Urban Setting 总被引:2,自引:2,他引:0
Eli M. Silk Christian D. Schunn Mari Strand Cary 《Journal of Science Education and Technology》2009,18(3):209-223
This study examines the use of engineering design to facilitate science reasoning in high-needs, urban classrooms. The Design
for Science unit utilizes scaffolds consistent with reform science instruction to assist students in constructing a design
solution to satisfy a need from their everyday lives. This provides a meaningful context in which students could reason scientifically.
Eighth grade students from two urban schools participated in the unit. Both schools contained large percentages of racial/ethnic
minority and economically disadvantaged students. Students demonstrated statistically significant improvement on a paper-and-pencil,
multiple-choice pre and post assessment. The results compare favorably with both a high-quality inquiry science unit and a
traditional textbook curriculum. Implications for the use of design-based curricula as a viable alternative for teaching science
reasoning in high-needs, urban settings are discussed.
相似文献
Eli M. SilkEmail: |
11.
Christopher Emdin 《Cultural Studies of Science Education》2009,4(1):239-254
In this article I explore research in urban science education inspired by the work of Kris Gutierrez in a paper based on her
2005 Scribner Award. It addresses key points in Gutierrez’s work by exploring theoretical frameworks for research and approaches
to teaching and research that expand the discourse on the agency of urban youth in corporate school settings. The work serves
as an overview of under-discussed approaches and theoretical frameworks to consider in teaching and conducting research with
marginalized urban youth in urban science classrooms.
相似文献
Christopher EmdinEmail: Email: |
12.
Language in Science Education as a Gatekeeper to Learning,Teaching, and Professional Development 总被引:1,自引:0,他引:1
Felicia M. Moore 《Journal of Science Teacher Education》2007,18(2):319-343
In this study, I used a feminist poststructural perspective to explain how language is a gatekeeper in learning science, in
achieving professional honors in teaching science, and in teaching science to English language learners. The various uses
of language revealed interesting dynamics related to the culture of power of language and the culture of power of science
along race–ethnicity, gender, and class dimensions for teachers. Teachers did not necessarily see language as having distinct
purposes and uses. This further maintained the gatekeeping nature of language and discourse in science education. I discuss
implications for looking at language in science education for teacher professional development and student learning.
相似文献
Felicia M. MooreEmail: |
13.
Andrée Tiberghien 《Cultural Studies of Science Education》2008,3(2):283-295
This commentary on Roth, Lee, and Hwang’s paper aims at analysing their theoretical approach in terms of its object of study,
and the aspects that are brought to the fore, like the cultural activity of conversation, and those that are overshadowed,
like the role of the material world and its perception on learning. This analysis, developed on the basis of a pragmatic approach
that combines theoretical frameworks, leads to a debate about the relevant components of teaching–learning situations according
to the theoretical approaches, and the extent to which, due to the complexity of the studied phenomena, some theoretical frameworks
are complementary or concurrent.
Andrée Tiberghien obtained her Ph.D. in condensed matter physics from the University of Paris 6 in 1972. She started her research in science education with studies on students’ conceptions in several domains (electricity, heat-temperature, light). Currently her research work is focused on classroom practices and the evolution of students’ knowledge during teaching sequences. She is in charge of a database project on video recordings of teaching and training situations (ViSA). She has contributed for more than 10 years to a research-development group of researchers and teachers who are producing new teaching resources. She is a member of the science expert group of PISA 2006 and 2009. 相似文献
Andrée TiberghienEmail: |
Andrée Tiberghien obtained her Ph.D. in condensed matter physics from the University of Paris 6 in 1972. She started her research in science education with studies on students’ conceptions in several domains (electricity, heat-temperature, light). Currently her research work is focused on classroom practices and the evolution of students’ knowledge during teaching sequences. She is in charge of a database project on video recordings of teaching and training situations (ViSA). She has contributed for more than 10 years to a research-development group of researchers and teachers who are producing new teaching resources. She is a member of the science expert group of PISA 2006 and 2009. 相似文献
14.
Felicia M. Moore 《Journal of Science Teacher Education》2008,19(1):85-109
This study reports the learning of elementary preservice teachers regarding diversity and teaching science in diverse urban
elementary classrooms. From participating in a semester-long book club, the preservice teachers reveal their cultural biases,
connect and apply their knowledge of diversity, and understand that getting to know their students are important elements
for teaching science in diverse classrooms. These 3 things connect in ways that allow the preservice teachers to understand
how their cultural biases impede student learning and gain new knowledge of diversity as they change their cultural biases.
Implications of this study reveal that preservice teachers need opportunities to reveal, confront, challenge, and change their
cultural models and to develop new models for teaching science in urban elementary classrooms.
相似文献
Felicia M. MooreEmail: |
15.
This article reviews the contributions of Campbell John McRobbie, Cam, to science education scholarship and research within
the Australasian Science Education Research Association (ASERA) and within the broader science education community. Cam provided
strong leadership and vision across many spheres of science education and leaves a legacy to the field that includes, (a)
long term administrative and academic support of ASERA as an organization and for its incorporation, (b) firm establishment
of RISE as an international journal of high quality, and (c) strong collegial approach to supporting the research of his colleagues
including early career researchers and research degree candidates.
相似文献
Keith SkampEmail: |
16.
Developing Science Pedagogical Content Knowledge Through Mentoring Elementary Teachers 总被引:1,自引:0,他引:1
Ken Appleton 《Journal of Science Teacher Education》2008,19(6):523-545
Elementary teachers are typically hesitant to teach science. While a limited knowledge of science content is a reason for
this, limited science pedagogical content knowledge (PCK) has emerged as another reason in recent research. This study constitutes
two case studies of a professional development program for elementary teachers involving mentoring by a university professor.
The mentor took the role of a critical friend in joint planning and teaching of science. The study examines the nature of
the mentoring relationship and reports the type of teacher learning that occurred, with a particular focus on the teachers’
development of science PCK.
相似文献
Ken AppletonEmail: |
17.
Science educators have yet to identify ways to enable inner city African American high school students to experience success
in science. In this paper, we argue that understanding the ways in which cultural practices from fields outside of school
mediate what happens inside classrooms and contribute to the learning of students is crucial to addressing current disparities
in science performance. Specifically, we explore the significance of movement expressiveness dispositions to the lives and
the learning of economically disadvantaged African American youth. These particular dispositions have been repeatedly observed
in our research, and they can be important resources for the creation of individual emotional energy, collective solidarity,
and heightened engagement in learning activities since they provide resources for the (re)shaping of identity. Thus movement
expressiveness dispositions hold potential for transforming the teaching and learning of these students.
相似文献
Gale SeilerEmail: |
18.
Gianna Katsiampoura 《Science & Education》2008,17(6):663-668
There is thus nothing paradoxical about the inclusion of alchemy in the ensemble of the physical sciences nor in the preoccupation
with it on the part of learned men engaged in scientific study. In the context of the Medieval model, where discourse on the
physical world was ambiguous, often unclear, and lacking the support of experimental verification, the transmutation of matter,
which was the subject of alchemy, even if not attended by a host of occult features, was a process that was thought to have
a probable basis in reality. What is interesting in this connection is the utilization of the scientific categories of the
day for discussion of transmutation of matter and the attempt to avoid, in most instances in the texts that survive, of methods
reminiscent of magic.
Gianna Katsiampoura is researcher of History and History of Science in the Byzantine Era and she has taught at the University of Crete, Greece. Her Ph.D. Dissertation is about Perception, Transmission and Function of Science in Middle Byzantine Era and the Quadrivium of 1008, Department of Sociology, Panteion University of Social and Political Science, Athens 2004. She has published papers in referred journals on History and Philosophy of Science in Byzantium. Her research interests include history and philosophy of science, history of education and the relation between history of science and political and economic history of Byzantium. 相似文献
Gianna KatsiampouraEmail: |
Gianna Katsiampoura is researcher of History and History of Science in the Byzantine Era and she has taught at the University of Crete, Greece. Her Ph.D. Dissertation is about Perception, Transmission and Function of Science in Middle Byzantine Era and the Quadrivium of 1008, Department of Sociology, Panteion University of Social and Political Science, Athens 2004. She has published papers in referred journals on History and Philosophy of Science in Byzantium. Her research interests include history and philosophy of science, history of education and the relation between history of science and political and economic history of Byzantium. 相似文献
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