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1.
Christina Siry Gail Horowitz Femi S. Otulaja Nicole Gillespie Ashraf Shady Line A. Augustin 《Cultural Studies of Science Education》2008,3(2):451-470
We discuss the eight papers in this issue of Cultural Studies of Science Education focusing on the debate over conceptual change in science education and explore the issues that have emerged for us as we
consider how conceptual change research relates to our practice as science educators. In presenting our interpretations of
this research, we consider the role of participants in the research process and contextual factors in conducting research
on science conceptions, and draw implications for the teaching of science.
Christina Siry is a PhD student in the Urban Education program of the City University of New York, and an instructor at Manhattanville College. Her research interests focus on pre-service and in-service preparation for the teaching of science and she is currently researching the use of coteaching and cogenerative dialogue in elementary teacher preparation for the teaching of science. In particular, she is exploring the role that shared, supported teaching experiences can have in the construction of new teacher identity and solidarity. She has worked as an elementary science specialist teaching children in grades K-5, and in museum settings developing science programs for teachers and children. In addition to the position at Manhattanville College, Chris is a lecturer in the University of Pennsylvania’s Science Teacher Institute where she teaches science pedagogy to middle school teachers. Gail Horowitz is an instructor of chemistry at Yeshiva University, and a doctoral candidate in science education at Teachers College. For many years, she has been involved in research and curricular design within the organic chemistry laboratory setting, focusing specifically on the design of discovery or puzzle based experiments. Her doctoral research focuses on the intrinsic motivation of pre-med students. She is interested in trying to characterize and describe the academic goal orientations of pre-med students, and is interested in exploring how the curricular elements embedded in project based laboratory curricula may or may not serve to enhance their intrinsic motivation. Femi S. Otulaja is currently a PhD student and an adjunct professor of science teacher education at Queens College of the City University of New York. As a science teacher educator, his research interests focus on the use of cogenerative dialoguing and its residuals, such as coteaching, distributed leadership, culturally responsive pedagogy, as research and pedagogical tools for engaging, training and apprenticing urban middle and high schools pre- and in-service science teachers as legitimate peripheral participants. He also encourages the use of these modalities as assessment, evaluation and professional development tools for teaching and learning science and for realigning cultural misalignments in urban classrooms. His theoretical framework consists of a bricolage of participatory action research, constructivism, critical ethnography, cultural sociology, sociology of emotions, indigenous epistemology, culturally responsive pedagogy, critical pedagogy and conversation analyses. In addition, he advocates the use of technologies as assistive tools in teaching science. Nicole Gillespie is a Senior Program Officer at the Knowles Science Teaching Foundation (KSTF). She is a former naval officer and high school physics teacher. Nicole received her PhD in science education from the University of California, Berkeley in 2004 where she was supported by a Spencer Dissertation Fellowship. She worked with the Physics Education Group at the University of Washington and conducted research on students’ intuitive ideas about force and model-based reasoning and argumentation among undergraduate physics students at Berkeley. In addition to her work at KSTF, Nicole is an instructor in the University of Pennsylvania’s Science Teacher Institute. Ashraf Shady is a PhD candidate in the Urban Education program at the City University of New York Graduate Center; his strand of concentration is science, math, and technology. In his research he is currently using theoretical frameworks from cultural sociology and the sociology of emotion to examine how learning and teaching of science are enacted when students and their teachers are able to co-participate in culturally adaptive ways and use their social and symbolic capital successfully. His research interests focus on the use of cogenerative dialogues as a methodology to navigate cultural fields in urban education. Central to his philosophy as a science educator is the notion that teaching is a form of cultural enactment. As such, teaching, and learning are regarded as cultural production, reproduction, and transformation. This triple dialectic affirms that elements of culture are associated with the sociocultural backgrounds of participating stakeholders. Line A. Augustin received her doctorate degree in Chemistry (with a chapter of her dissertation on a case study of enactment of chemical knowledge of a high school student) and did a post-doc on Science Education at the Graduate Center, CUNY. She is currently teaching science content and methods courses in the Elementary and Early Childhood Education Department of Queens College, CUNY. She is interesting in investigating how racial, cultural, class and gender issues affect the ways that teaching and learning occurs in elementary classrooms, in understanding these issues and developing mechanism by which they can be utilized to promote better teaching and learning environment and greater dispositions towards science. She is also interested in what influences science teachers to change and/or to improve their teaching practices. 相似文献
| Christina SiryEmail: |
Christina Siry is a PhD student in the Urban Education program of the City University of New York, and an instructor at Manhattanville College. Her research interests focus on pre-service and in-service preparation for the teaching of science and she is currently researching the use of coteaching and cogenerative dialogue in elementary teacher preparation for the teaching of science. In particular, she is exploring the role that shared, supported teaching experiences can have in the construction of new teacher identity and solidarity. She has worked as an elementary science specialist teaching children in grades K-5, and in museum settings developing science programs for teachers and children. In addition to the position at Manhattanville College, Chris is a lecturer in the University of Pennsylvania’s Science Teacher Institute where she teaches science pedagogy to middle school teachers. Gail Horowitz is an instructor of chemistry at Yeshiva University, and a doctoral candidate in science education at Teachers College. For many years, she has been involved in research and curricular design within the organic chemistry laboratory setting, focusing specifically on the design of discovery or puzzle based experiments. Her doctoral research focuses on the intrinsic motivation of pre-med students. She is interested in trying to characterize and describe the academic goal orientations of pre-med students, and is interested in exploring how the curricular elements embedded in project based laboratory curricula may or may not serve to enhance their intrinsic motivation. Femi S. Otulaja is currently a PhD student and an adjunct professor of science teacher education at Queens College of the City University of New York. As a science teacher educator, his research interests focus on the use of cogenerative dialoguing and its residuals, such as coteaching, distributed leadership, culturally responsive pedagogy, as research and pedagogical tools for engaging, training and apprenticing urban middle and high schools pre- and in-service science teachers as legitimate peripheral participants. He also encourages the use of these modalities as assessment, evaluation and professional development tools for teaching and learning science and for realigning cultural misalignments in urban classrooms. His theoretical framework consists of a bricolage of participatory action research, constructivism, critical ethnography, cultural sociology, sociology of emotions, indigenous epistemology, culturally responsive pedagogy, critical pedagogy and conversation analyses. In addition, he advocates the use of technologies as assistive tools in teaching science. Nicole Gillespie is a Senior Program Officer at the Knowles Science Teaching Foundation (KSTF). She is a former naval officer and high school physics teacher. Nicole received her PhD in science education from the University of California, Berkeley in 2004 where she was supported by a Spencer Dissertation Fellowship. She worked with the Physics Education Group at the University of Washington and conducted research on students’ intuitive ideas about force and model-based reasoning and argumentation among undergraduate physics students at Berkeley. In addition to her work at KSTF, Nicole is an instructor in the University of Pennsylvania’s Science Teacher Institute. Ashraf Shady is a PhD candidate in the Urban Education program at the City University of New York Graduate Center; his strand of concentration is science, math, and technology. In his research he is currently using theoretical frameworks from cultural sociology and the sociology of emotion to examine how learning and teaching of science are enacted when students and their teachers are able to co-participate in culturally adaptive ways and use their social and symbolic capital successfully. His research interests focus on the use of cogenerative dialogues as a methodology to navigate cultural fields in urban education. Central to his philosophy as a science educator is the notion that teaching is a form of cultural enactment. As such, teaching, and learning are regarded as cultural production, reproduction, and transformation. This triple dialectic affirms that elements of culture are associated with the sociocultural backgrounds of participating stakeholders. Line A. Augustin received her doctorate degree in Chemistry (with a chapter of her dissertation on a case study of enactment of chemical knowledge of a high school student) and did a post-doc on Science Education at the Graduate Center, CUNY. She is currently teaching science content and methods courses in the Elementary and Early Childhood Education Department of Queens College, CUNY. She is interesting in investigating how racial, cultural, class and gender issues affect the ways that teaching and learning occurs in elementary classrooms, in understanding these issues and developing mechanism by which they can be utilized to promote better teaching and learning environment and greater dispositions towards science. She is also interested in what influences science teachers to change and/or to improve their teaching practices. 相似文献
2.
Kenneth Tobin 《Cultural Studies of Science Education》2007,2(3):529-538
This article reviews the significance of the contributions of Ernst von Glasersfeld to research in science education, especially
through his theoretical contributions on radical constructivism. As a field shaper, Glasersfeld’s subversive ideas catalyzed
debate in the science education community and fuelled transformation of many facets including research methods, ways of thinking
about teaching and learning, curriculum, and science teacher education. Perturbations emanating from the debates on constructivism
forged new pathways that led to the development and use of many of the sociocultural frameworks employed by authors in Cultural
Studies of Science Education.
Kenneth Tobin is Presidential Professor of Urban Education at the Graduate Center of City College. In 2004 Tobin was recognized by the National Science Foundation as a Distinguished Teaching Scholar and by the Association for the Education of Teachers of Science as Outstanding Science Teacher Educator of the Year. Prior to commencing a career as a teacher educator, Tobin taught high school science and mathematics in Australia and was involved in curriculum design. His research interests are focused on the teaching and learning of science in urban schools, which involve mainly African American students living in conditions of poverty. A parallel program of research focuses on coteaching as a way of learning to teach in urban high schools. Recently Tobin published a book with Wolff-Michael Roth entitled Teaching to learn: A view from the field and edited two volumes entitled The culture of science education: Its history in person and Science, learning, and identity: Sociocultural and cultural-historical perspectives. In 2006 Tobin edited Teaching and learning science: A handbook. 相似文献
| Kenneth TobinEmail: |
Kenneth Tobin is Presidential Professor of Urban Education at the Graduate Center of City College. In 2004 Tobin was recognized by the National Science Foundation as a Distinguished Teaching Scholar and by the Association for the Education of Teachers of Science as Outstanding Science Teacher Educator of the Year. Prior to commencing a career as a teacher educator, Tobin taught high school science and mathematics in Australia and was involved in curriculum design. His research interests are focused on the teaching and learning of science in urban schools, which involve mainly African American students living in conditions of poverty. A parallel program of research focuses on coteaching as a way of learning to teach in urban high schools. Recently Tobin published a book with Wolff-Michael Roth entitled Teaching to learn: A view from the field and edited two volumes entitled The culture of science education: Its history in person and Science, learning, and identity: Sociocultural and cultural-historical perspectives. In 2006 Tobin edited Teaching and learning science: A handbook. 相似文献
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4.
Nondeterminism is a fundamental concept in computer science that appears in various contexts such as automata theory, algorithms
and concurrent computation. We present a taxonomy of the different ways that nondeterminism can be defined and used; the categories
of the taxonomy are domain, nature, implementation, consistency, execution and semantics. An historical survey shows how the
concept was developed from its inception by Rabin & Scott, Floyd and Dijkstra, as well as the interplay between nondeterminism
and concurrency. Computer science textbooks and pedagogical software are surveyed to determine how they present the concept;
the results show that the treatment of nondeterminism is generally fragmentary and unsystematic. We conclude that the teaching
of nondeterminism must be integrated through the computer science curriculum so that students learn to see nondeterminism
both in terms of abstract mathematical entities and in terms of machines whose execution is unpredictable.
Michal Armoni is a postdoctoral fellow at the Department of Science Teaching of the Weizmann Institute of Science. She received her PhD in science teaching from the Tel Aviv University, and her BA and MSc in computer science from the Technion. Her research interests are in the teaching and learning processes in computer science, in particular of fundamental concepts such as reduction and nondeterminism. She is currently on leave from the computer science department of the Open University of Israel. She has extensive experience in developing learning materials in computer science and in teaching the subjects at all levels from high school through graduate students. Mordechai Ben-Ari is an associate professor in the Department of Science Teaching of the Weizmann Institute of Science. He holds a PhD in mathematics and computer science from the Tel Aviv University. In 2004, he received the ACM/SIGCSE Award for Outstanding Contributions to Computer Science Education. He is the author of numerous computer science textbooks and of Just a Theory: Exploring the Nature of Science (Prometheus 2005). His research interests include the use of visualization in teaching computer science, the pedagogy of concurrent and distributed computation, the application of theories of education to computer science education and the nature of science. 相似文献
| Michal Armoni (Corresponding author)Email: |
| Mordechai Ben-AriEmail: |
Michal Armoni is a postdoctoral fellow at the Department of Science Teaching of the Weizmann Institute of Science. She received her PhD in science teaching from the Tel Aviv University, and her BA and MSc in computer science from the Technion. Her research interests are in the teaching and learning processes in computer science, in particular of fundamental concepts such as reduction and nondeterminism. She is currently on leave from the computer science department of the Open University of Israel. She has extensive experience in developing learning materials in computer science and in teaching the subjects at all levels from high school through graduate students. Mordechai Ben-Ari is an associate professor in the Department of Science Teaching of the Weizmann Institute of Science. He holds a PhD in mathematics and computer science from the Tel Aviv University. In 2004, he received the ACM/SIGCSE Award for Outstanding Contributions to Computer Science Education. He is the author of numerous computer science textbooks and of Just a Theory: Exploring the Nature of Science (Prometheus 2005). His research interests include the use of visualization in teaching computer science, the pedagogy of concurrent and distributed computation, the application of theories of education to computer science education and the nature of science. 相似文献
5.
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
6.
Jennifer D. Adams 《Cultural Studies of Science Education》2007,2(2):393-440
In this article I critically examine the historical context of science education in a natural history museum and its relevance
to using museum resources to teach science today. I begin with a discussion of the historical display of race and its relevance
to my practice of using the Museum’s resources to teach science. I continue with a critical review of the history of the education
department in a natural history museum to demonstrate the historical constitution of current practices of the education department.
Using sociocultural constructs around identity formation and transformation, I move to the present with a case study of a
teacher who transforms the structure of science education in her classroom and school as a result of her identity transformation
and association with a museum-based professional education program.
相似文献
| Jennifer D. AdamsEmail: |
7.
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: |
8.
Gillian U. Bayne 《Cultural Studies of Science Education》2009,4(3):559-567
This article reviews significant contributions made by Joe L. Kincheloe to critical research in science education, especially
through a multimethodological, multitheoretical, and multidisciplinary informed lens that incorporates social, cultural, political,
economic, and cognitive dynamics—the bricolage. Kincheloe’s ideas provide for a compelling understanding of, and insights
into, the forces that shape the intricacies of teaching and learning science and science education. They have implications
in improving science education policies, in developing actions that challenge and cultivate the intellect while operating
in ways that are more understanding of difference and are socially just.
Gillian U. Bayne is an assistant professor of science education at Lehman College, City University of New York. Having also completed a master’s degree in secondary science education at New York University, she has taught science both in New York City’s public school system and in independent schools for over 10 years. Gillian’s research interests are focused on the utilization of cogenerative dialogues with high school and college students, their teachers and other stakeholders to improve science teaching and learning. 相似文献
| Gillian U. BayneEmail: |
Gillian U. Bayne is an assistant professor of science education at Lehman College, City University of New York. Having also completed a master’s degree in secondary science education at New York University, she has taught science both in New York City’s public school system and in independent schools for over 10 years. Gillian’s research interests are focused on the utilization of cogenerative dialogues with high school and college students, their teachers and other stakeholders to improve science teaching and learning. 相似文献
9.
Interviews with key scientists who had conducted research on Severe Acute Respiratory Syndrome (SARS), together with analysis
of media reports, documentaries and other literature published during and after the SARS epidemic, revealed many interesting
aspects of the nature of science (NOS) and scientific inquiry in contemporary scientific research in the rapidly growing field
of molecular biology. The story of SARS illustrates vividly some NOS features advocated in the school science curriculum,
including the tentative nature of scientific knowledge, theory-laden observation and interpretation, multiplicity of approaches
adopted in scientific inquiry, the inter-relationship between science and technology, and the nexus of science, politics,
social and cultural practices. The story also provided some insights into a number of NOS features less emphasised in the
school curriculum—for example, the need to combine and coordinate expertise in a number of scientific fields, the intense
competition between research groups (suspended during the SARS crisis), the significance of affective issues relating to intellectual
honesty and the courage to challenge authority, the pressure of funding issues on the conduct of research and the ‘peace of
mind’ of researchers, These less emphasised elements provided empirical evidence that NOS knowledge, like scientific knowledge
itself, changes over time. They reflected the need for teachers and curriculum planners to revisit and reconsider whether
the features of NOS currently included in the school science curriculum are fully reflective of the practice of science in
the 21st century. In this paper, we also report on how we made use of extracts from the news reports and documentaries on
SARS, together with episodes from the scientists’ interviews, to develop a multimedia instructional package for explicitly
teaching the prominent features of NOS and scientific inquiry identified in the SARS research.
Siu Ling Wong is an Assistant Professor, in the Division of Science, Mathematics and Computing in the Faculty of Education at The University of Hong Kong. She received her B.Sc. from The University of Hong Kong and her Ph.D. from the University of Oxford. Her research interests include promoting teachers’ and students’ understanding of nature of science and scientific inquiry, physics education, teacher professional development. Jenny Kwan is a PhD student in the Faculty of Education, at The University of Hong Kong. She received her B.Sc. from University of Sydney. She is now investigating in-service teachers’ classroom instruction on nature of science in relation to their intentions, beliefs, and pedagogical content knowledge. Derek Hodson is Professor of Science Education at the Ontario Institute for Studies in Education and Editor of the Canadian Journal of Science, Technology and Mathematics Education. His major research interests include: history, philosophy & sociology of science and its implications for science education; STSE education and the politicisation of science education; science curriculum history; multicultural and antiracist education; and science teacher education via action research. Benny Hin Wai Yung is Head, Associate Professor, in the Division of Science, Mathematics and Computing in the Faculty of Education at University of Hong Kong. His main research areas are teacher education and development, science education and assessment for science learning. His recent publications include Yung BHW (2006) Assessment reform in science education: fairness and fear. Springer, Dordrecht. 相似文献
| Siu Ling WongEmail: |
Siu Ling Wong is an Assistant Professor, in the Division of Science, Mathematics and Computing in the Faculty of Education at The University of Hong Kong. She received her B.Sc. from The University of Hong Kong and her Ph.D. from the University of Oxford. Her research interests include promoting teachers’ and students’ understanding of nature of science and scientific inquiry, physics education, teacher professional development. Jenny Kwan is a PhD student in the Faculty of Education, at The University of Hong Kong. She received her B.Sc. from University of Sydney. She is now investigating in-service teachers’ classroom instruction on nature of science in relation to their intentions, beliefs, and pedagogical content knowledge. Derek Hodson is Professor of Science Education at the Ontario Institute for Studies in Education and Editor of the Canadian Journal of Science, Technology and Mathematics Education. His major research interests include: history, philosophy & sociology of science and its implications for science education; STSE education and the politicisation of science education; science curriculum history; multicultural and antiracist education; and science teacher education via action research. Benny Hin Wai Yung is Head, Associate Professor, in the Division of Science, Mathematics and Computing in the Faculty of Education at University of Hong Kong. His main research areas are teacher education and development, science education and assessment for science learning. His recent publications include Yung BHW (2006) Assessment reform in science education: fairness and fear. Springer, Dordrecht. 相似文献
10.
Bryan McKinley Jones Brayboy Angelina E. Castagno 《Cultural Studies of Science Education》2008,3(3):731-750
This article examines the literature on Native science in order to address the presumed binaries between formal and informal
science learning and between Western and Native science. We situate this discussion within a larger discussion of culturally
responsive schooling for Indigenous youth and the importance of Indigenous epistemologies and contextualized knowledges within
Indigenous communities.
Bryan McKinley Jones Brayboy (Lumbee) is Borderland’s associate professor of educational leadership and policy studies at Arizona State University and President’s professor of education at the University of Alaska Fairbanks. His research focuses on Indigenous ways of knowing and being, Indigenous teacher education, and Indigenous students in higher education. He can be contacted at bryan.brayboy@asu.edu or ffbb@uaf.edu. Angelina E. Castagno is an assistant professor in educational leadership and foundations at Northern Arizona University. Her research centers on Indigenous education, multicultural education, and critical race and whiteness theories. She can be contacted at angelina.castagno@nau.edu. 相似文献
| Bryan McKinley Jones BrayboyEmail: Email: |
Bryan McKinley Jones Brayboy (Lumbee) is Borderland’s associate professor of educational leadership and policy studies at Arizona State University and President’s professor of education at the University of Alaska Fairbanks. His research focuses on Indigenous ways of knowing and being, Indigenous teacher education, and Indigenous students in higher education. He can be contacted at bryan.brayboy@asu.edu or ffbb@uaf.edu. Angelina E. Castagno is an assistant professor in educational leadership and foundations at Northern Arizona University. Her research centers on Indigenous education, multicultural education, and critical race and whiteness theories. She can be contacted at angelina.castagno@nau.edu. 相似文献
11.
Veronica S. Flodin 《Science & Education》2009,18(1):73-94
The purpose of this study is to analyze variations in how the gene concept is used and conceived in different sub-disciplines
in biology. An examination of the development of subject matter and the use of the gene concept in a common college biology
textbook shows that the gene concept is far from presented in a consistent way. The study describes and categorizes five different
gene concepts used in the textbook; the gene as a trait, an information-structure, an actor, a regulator and a marker. These
conceptual differences are not dealt with in an explicit manner. This constitutes one of the sources for confusion when learning
about genes and genetics.
Veronica S. Flodin is currently a Ph D student in science education at Stockholm University, Sweden .She received her BS in Biology 1986 complemented with studies in science of philosophy, language, and PhD-studies in microbiology. She has been involved in teaching university courses in microbiology both at undergraduate and graduate level, worked as course leader and also project leader of a problem based learning education in Biology. Her research interest include different aspects of scientific knowledge in general and in particular the transformation of knowledge from research to education. 相似文献
| Veronica S. FlodinEmail: |
Veronica S. Flodin is currently a Ph D student in science education at Stockholm University, Sweden .She received her BS in Biology 1986 complemented with studies in science of philosophy, language, and PhD-studies in microbiology. She has been involved in teaching university courses in microbiology both at undergraduate and graduate level, worked as course leader and also project leader of a problem based learning education in Biology. Her research interest include different aspects of scientific knowledge in general and in particular the transformation of knowledge from research to education. 相似文献
12.
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
13.
In this case study, we examine a teacher’s journey, including reflections on teaching science, everyday classroom interaction,
and their intertwined relationship. The teacher’s reflections include an awareness of being “a White middle-class born and
raised teacher teaching other peoples’ children.” This awareness was enacted in the science classroom and emerges through
approaches to inquiry. Our interest in Ms. Cook’s journey grew out of discussions, including both informal and semi-structured interviews, in two
research projects over a three-year period. Our interest was further piqued as we analyzed videotaped classroom interaction
during science lessons and discovered connections between Ms. Cook’s reflections and classroom interaction. In this article,
we illustrate ways that her journey emerges as a conscientization. This, at least in part, shapes classroom interaction, which
then again shapes her conscientization in a recursive, dynamic relationship. We examine her reflections on her “hegemonic
(cultural and socio–economic) practices” and consider how these reflections help her reconsider such practices through analysis
of classroom interaction. Analyses lead us to considering the importance of inquiry within this classroom community.
Jennifer Goldberg is an assistant professor in the Graduate School of Education and Allied Professions at Fairfield University. She received her PhD in educational research methodology from the University of California, Los Angeles. Her teaching and research focuses on the importance of teaching for social justice and the relationship between identity, talk, and interaction on student opportunities for learning. Kate Muir Welsh is an associate professor in the University of Wyoming’s College of Education. She received her PhD in education from the University of California, Los Angeles. Kate teaches math and science methods courses to pre-service and in-service elementary teachers and graduate courses on Action Research. Her research focuses on social justice teaching. She is also Chair of the University of Wyoming’s Shepard Symposium on Social Justice. 相似文献
| Jennifer GoldbergEmail: |
Jennifer Goldberg is an assistant professor in the Graduate School of Education and Allied Professions at Fairfield University. She received her PhD in educational research methodology from the University of California, Los Angeles. Her teaching and research focuses on the importance of teaching for social justice and the relationship between identity, talk, and interaction on student opportunities for learning. Kate Muir Welsh is an associate professor in the University of Wyoming’s College of Education. She received her PhD in education from the University of California, Los Angeles. Kate teaches math and science methods courses to pre-service and in-service elementary teachers and graduate courses on Action Research. Her research focuses on social justice teaching. She is also Chair of the University of Wyoming’s Shepard Symposium on Social Justice. 相似文献
14.
Ali Sammel 《Cultural Studies of Science Education》2009,4(3):649-656
This paper provides another way to gaze upon Brad’s story as presented by van Eijck and Roth (2010). It raises questions about
infrastructural racism in contemporary science education by exploring its association with Whiteness and White privilege.
To explore the racial positioning inherent in Western science education specific attention is given to the positions of power
that accompany Western ways of knowing the world (i.e., science education) in comparison to Other ways of knowing the world
(i.e., First Nations Ways of Knowing). The paper suggests the power relationships inherent within this dualism are asymmetrical
due to the implications of Whiteness within colonial societies. Even though power relations were not discussed in Brad’s story,
the paper suggests the implications were visible. The paper concludes by advocating for a re-imagining in science education
where the traditional ontological and epistemological foundations are deconstructed and spaces are created for enacting practical
ways of resisting oppression.
Alison Sammel received her doctorate in 2005 for a study that used critical theory and feminist poststructuralism to analyze how five science teachers believed they incorporated critical forms of pedagogy in their high school science classrooms. Intrigued by the social construction of the ‘Western science teacher’ she continues to explore the teaching and learning of Science through the lens of feminist poststructuralism. Alison currently teaches at the School of Education and Professional Studies at Griffith University on the Gold Coast and researches in the fields of Science and Anti-oppressive pedagogies. 相似文献
| Ali SammelEmail: |
Alison Sammel received her doctorate in 2005 for a study that used critical theory and feminist poststructuralism to analyze how five science teachers believed they incorporated critical forms of pedagogy in their high school science classrooms. Intrigued by the social construction of the ‘Western science teacher’ she continues to explore the teaching and learning of Science through the lens of feminist poststructuralism. Alison currently teaches at the School of Education and Professional Studies at Griffith University on the Gold Coast and researches in the fields of Science and Anti-oppressive pedagogies. 相似文献
15.
16.
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
17.
Elizabeth McKinley 《Cultural Studies of Science Education》2008,3(4):959-975
The use of hybridity today suggests a less coherent, unified and directed process than that found in the Enlightenment science’s
cultural imperialism, but regardless of this neither concept exists outside power and inequality. Hence, hybridity raises
the question of the terms of the mixture and the conditions of mixing. Cultural hybridity produced by colonisation, under
the watchful eye of science at the time, and the subsequent life in a modern world since does not obscure the power that was
embedded in the moment of colonisation. Indigenous identities are constructed within and by cultural power. While we all live
in a global society whose consequences no one can escape, we remain unequal participants and globalisation remains an uneven
process. This article argues that power has become a constitutive element in our own hybrid identities in indigenous people’s
attempts to participate in science and science education. Using the indigenous peoples of Aotearoa New Zealand (called Māori)
as a site of identity construction, I argue that the move from being the object of science to the subject of science, through
science education in schools, brings with it traces of an earlier meaning of ‘hybridity’ that constantly erupts into the lives
of Māori women scientists.
Elizabeth McKinley is currently the Director of the Starpath Project for Tertiary Participation and Success, and an Associate Professor in Maori Education at the Faculty of Education, University of Auckland. Her experience includes teaching and administration in secondary schools, pre-service and in-service teacher education, national curriculum development and liberal arts education. Liz’s doctoral work investigated issues of identity and colonization in the under-representation of Maori women as scientists. She has published extensively in the area of science education and indigenous students. Liz has led a number of research projects around Maori content, language and participation in Mathematics and Science education. She is currently also Principal Investigator for a Teaching and Learning Research Initiative (TLRI) funded project on the teaching and learning in the supervision of Māori doctoral students. Liz has been invited to speak at conferences in New Zealand, Denmark, Japan, Hawaii, Alaska, Fiji and Canada. 相似文献
| Elizabeth McKinleyEmail: |
Elizabeth McKinley is currently the Director of the Starpath Project for Tertiary Participation and Success, and an Associate Professor in Maori Education at the Faculty of Education, University of Auckland. Her experience includes teaching and administration in secondary schools, pre-service and in-service teacher education, national curriculum development and liberal arts education. Liz’s doctoral work investigated issues of identity and colonization in the under-representation of Maori women as scientists. She has published extensively in the area of science education and indigenous students. Liz has led a number of research projects around Maori content, language and participation in Mathematics and Science education. She is currently also Principal Investigator for a Teaching and Learning Research Initiative (TLRI) funded project on the teaching and learning in the supervision of Māori doctoral students. Liz has been invited to speak at conferences in New Zealand, Denmark, Japan, Hawaii, Alaska, Fiji and Canada. 相似文献
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
19.
20.
Panos Kokkotas Panagiotis Piliouras Katerina Malamitsa Efthymios Stamoulis 《Science & Education》2009,18(5):609-629
Our paper presents an in-service primary school teachers’ training program which is based on the idea that the history of
science can play a vital role in promoting the learning of physics. This training program has been developed in the context
of Comenius 2.1 which is a European Union program. This program that we have developed in the University of Athens is based
on socioconstructivist and sociocultural learning principles with the intention of helping teachers to appropriate the basic
knowledge on the issue of falling bodies. Moreover, it has the aim to make explicit through the exploitation of authentic
historical science events, on the above topic (Aristotle’s, Galileo’s and Newton’s theories on falling bodies) the Nature
of Science (NoS), the Nature of Learning (NoL) and the Nature of Teaching (NoT). During the implementation of the program
we have used a variety of teaching strategies (e.g. group work, making of posters, making of concept maps, simulations) that
utilize historical scientific materials on the issue of falling bodies.
Panos Kokkotas is professor at the Pedagogical Department of University of Athens. He teaches Science Education, Multimedia (audio, visual etc.) teaching tools and Museum Education to both initial and in-service teachers. He is also coordinator of the Comenius 2.1 projects entitled (i) “The MAP project” (two years duration—2004–2006) and (ii) “The STeT project (Science Teacher e-Training) (2006–2008). He has α degree in Physics from the University of Athens. His Ph.D. is on science education from the University of Wales. He has taught science in high school, he has been a school consultant for science teachers. He has mainly published in science education. His recent books include Science Education I (Athens, 2000), Science Education II—The constructivist approach to teaching and learning science (Athens, 2002). Additionally he has edited Teaching Approaches to Science Education (Athens, 2000); as wells as he has edited the Greek translations of the book: Words, Science and Learning by Clive Sutton, (Athens, 2002) and also of the book Making Sense of Secondary Science by Driver et al. (Athens, 2000). He is also writer of the following science textbooks: (1) Science textbook for 5th grade of primary school based on constructivism, (2) Science textbook for 6th grade of primary school based on constructivism, Physics Textbooks for students of Upper Secondary Schools as follows: (3) Physics textbook for 16 years old, (4) Physics textbook for 17 years old student, (5) Physics textbook for 18 years old student. He is the Foundation president of the “The Hellenic Union for Science Education (EDIFE)”. Till now the Union has organized two large Conferences with international participation and also many small conferences in Greece. The 2nd Conference of EDIFE organized together with the 2nd IOSTE Symposium in Southern Europe. He is Foundation Editor of the Greek journal: Science Education: Research & Practice. This year he is responsible for the organisation of the 7th International Conference on History of Science in Science Education (Workshop of Experts), having as theme “Adapting Historical Knowledge Production to the Classroom” from Monday July 7th to Friday July 11th, 2008 in Athens. Panagiotis Piliouras is a Ph.D. holder and in 1984 he got his degree in primary education and in 1993 he got his degree in Mathematics. He attended postgraduate studies (M.Sc.) in Science Education at the Pedagogical Department of Primary Education at the University of Athens. From 1985 until 1998 he taught in a primary school. Since 1999 he has been working in the Pedagogical Department of Primary Education at the University of Athens. His current work involves laboratory teaching, in-service teacher-training and design and development educational material and educational multimedia. His research interest is focused on teaching science in a collaborative inquiry mode, social interaction in learning and instruction, methodological questions in the analysis of social activity, sociocultural perspectives to learning and development, and applications of the educational technology. Katerina Malamitsa is a Ph.D. holder from Pedagogical Department of Primary Education at the National University of Athens in the field of “Critical Thinking and Science Education in Primary School”. She got her Bachelor’s Degree as a Teacher in Primary Education in 1984. From 1986 until 1999 she taught in primary schools of Greece. In 2002 she got her Master’s Degree in “Science Education” at the Pedagogical Department of Primary Education at the National University of Athens. From 2006 till now she is a director in a Greek Primary School in Athens. She has participated in national and international conferences in topics concerning Science Education and teaching. She has published papers in Greek scientific journals. She is author of the Science textbooks which are used in the 3rd & 4th grades of Greek Primary School in national level (after evaluation from a scientific committee). Recently she has translated and standardized the “Test of Everyday Reasoning (TER)” & “The California Measure of Mental Motivation (CM3)” (levels 2&3) for the Greek population [Insight Assessment/California Academic Press LLC, 217 La Cruz Avenue, Millbrae, CA 94030, ]. Her main research interests focus on the critical thinking, the Science Education in Primary School, the use of aspects of History of Science in Teaching Science, the teacher training and education, the reflective teacher, the professional development of teachers etc. Efthymios Stamoulis is a PhD Student in the Pedagogical Department of Primary Education at the University of Ioannina. His current work involves laboratory teaching, in-service teacher-training and design and development educational material and educational multimedia. He is a director in primary school in Athens, Greece. 相似文献
| Panos KokkotasEmail: |
Panos Kokkotas is professor at the Pedagogical Department of University of Athens. He teaches Science Education, Multimedia (audio, visual etc.) teaching tools and Museum Education to both initial and in-service teachers. He is also coordinator of the Comenius 2.1 projects entitled (i) “The MAP project” (two years duration—2004–2006) and (ii) “The STeT project (Science Teacher e-Training) (2006–2008). He has α degree in Physics from the University of Athens. His Ph.D. is on science education from the University of Wales. He has taught science in high school, he has been a school consultant for science teachers. He has mainly published in science education. His recent books include Science Education I (Athens, 2000), Science Education II—The constructivist approach to teaching and learning science (Athens, 2002). Additionally he has edited Teaching Approaches to Science Education (Athens, 2000); as wells as he has edited the Greek translations of the book: Words, Science and Learning by Clive Sutton, (Athens, 2002) and also of the book Making Sense of Secondary Science by Driver et al. (Athens, 2000). He is also writer of the following science textbooks: (1) Science textbook for 5th grade of primary school based on constructivism, (2) Science textbook for 6th grade of primary school based on constructivism, Physics Textbooks for students of Upper Secondary Schools as follows: (3) Physics textbook for 16 years old, (4) Physics textbook for 17 years old student, (5) Physics textbook for 18 years old student. He is the Foundation president of the “The Hellenic Union for Science Education (EDIFE)”. Till now the Union has organized two large Conferences with international participation and also many small conferences in Greece. The 2nd Conference of EDIFE organized together with the 2nd IOSTE Symposium in Southern Europe. He is Foundation Editor of the Greek journal: Science Education: Research & Practice. This year he is responsible for the organisation of the 7th International Conference on History of Science in Science Education (Workshop of Experts), having as theme “Adapting Historical Knowledge Production to the Classroom” from Monday July 7th to Friday July 11th, 2008 in Athens. Panagiotis Piliouras is a Ph.D. holder and in 1984 he got his degree in primary education and in 1993 he got his degree in Mathematics. He attended postgraduate studies (M.Sc.) in Science Education at the Pedagogical Department of Primary Education at the University of Athens. From 1985 until 1998 he taught in a primary school. Since 1999 he has been working in the Pedagogical Department of Primary Education at the University of Athens. His current work involves laboratory teaching, in-service teacher-training and design and development educational material and educational multimedia. His research interest is focused on teaching science in a collaborative inquiry mode, social interaction in learning and instruction, methodological questions in the analysis of social activity, sociocultural perspectives to learning and development, and applications of the educational technology. Katerina Malamitsa is a Ph.D. holder from Pedagogical Department of Primary Education at the National University of Athens in the field of “Critical Thinking and Science Education in Primary School”. She got her Bachelor’s Degree as a Teacher in Primary Education in 1984. From 1986 until 1999 she taught in primary schools of Greece. In 2002 she got her Master’s Degree in “Science Education” at the Pedagogical Department of Primary Education at the National University of Athens. From 2006 till now she is a director in a Greek Primary School in Athens. She has participated in national and international conferences in topics concerning Science Education and teaching. She has published papers in Greek scientific journals. She is author of the Science textbooks which are used in the 3rd & 4th grades of Greek Primary School in national level (after evaluation from a scientific committee). Recently she has translated and standardized the “Test of Everyday Reasoning (TER)” & “The California Measure of Mental Motivation (CM3)” (levels 2&3) for the Greek population [Insight Assessment/California Academic Press LLC, 217 La Cruz Avenue, Millbrae, CA 94030, ]. Her main research interests focus on the critical thinking, the Science Education in Primary School, the use of aspects of History of Science in Teaching Science, the teacher training and education, the reflective teacher, the professional development of teachers etc. Efthymios Stamoulis is a PhD Student in the Pedagogical Department of Primary Education at the University of Ioannina. His current work involves laboratory teaching, in-service teacher-training and design and development educational material and educational multimedia. He is a director in primary school in Athens, Greece. 相似文献