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This edited volume extends existing discussions among philosophers of science, cognitive psychologists, and educational researchers on the the restructuring of scientific knowledge and the domain of science education. This exchange of ideas across disciplinary fields raises fundamental issues and provides frameworks that help to focus educational research programs, curriculum development efforts, and teacher training programs.
This edited volume extends existing discussions among philosophers of science, cognitive psychologists, and educational researchers on the the restructuring of scientific knowledge and the domain of science education. This exchange of ideas across disciplinary fields raises fundamental issues and provides frameworks that help to focus educational research programs, curriculum development efforts, and teacher training programs.
This volume offers an overview of the philosophy of cognitive science that balances breadth and depth, with chapters covering every aspect of the psychology and cognitive anthropology.
This book presents a “philosophy of science education” as a research field as well as its value for curriculum, instruction and teacher pedagogy. It seeks to re-think science education as an educational endeavour by examining why past reform efforts have been only partially successful, including why the fundamental goal of achieving scientific literacy after several “reform waves” has proven to be so elusive. The identity of such a philosophy is first defined in relation to the fields of philosophy, philosophy of science, and philosophy of education. It argues that educational theory can support teacher’s pedagogical content knowledge and that history, philosophy and sociology of science should inform and influence pedagogy. Some case studies are provided which examine the nature of science and the nature of language to illustrate why and how a philosophy of science education contributes to science education reform. It seeks to contribute in general to the improvement of curriculum design and science teacher education. The perspective to be taken on board is that to teach science is to have a philosophical frame of mind—about the subject, about education, about one’s personal teacher identity.
Exploring one of the central themes in science education theory, this volume examines how science education can be considered as a scientific activity within a broad post-positivist notion of science. Many students find learning science extremely problematic, whatever level of education they have reached. At the end of the 1970s a new approach to tackling learning difficulties in science was developed, drawing on ideas from psychology and cognitive science, and centred on the way students build up new knowledge in reference to their existing ideas. ‘Constructivism’ became the dominant paradigm in science education research for two decades, spawning a vast body of literature reporting aspects of learners’ ideas in different science topics. However, Constructivism came under fire as it was recognised that the research did not offer immediate and simple prescriptions for effective science teaching. The whole approach was widely criticised, in particular by those who saw it as having ‘anti-science’ leanings. In this book, the notion of scientific research programmes is used to understand the development, limitations and potential of constructivism. It is shown that constructivist work in science education fits into a coherent programme exploring the contingencies of learning science. The author goes further to address criticisms of constructivism; evaluate progress in the field; and suggest directions for future research. It is concluded that constructivism has provided the foundations for a progressive research programme that continues to guide enquiry into learning and teaching science.
Belief revision theory and philosophy of science both aspire to shed light on the dynamics of knowledge – on how our view of the world changes (typically) in the light of new evidence. Yet these two areas of research have long seemed strangely detached from each other, as witnessed by the small number of cross-references and researchers working in both domains. One may speculate as to what has brought about this surprising, and perhaps unfortunate, state of affairs. One factor may be that while belief revision theory has traditionally been pursued in a bottom- up manner, focusing on the endeavors of single inquirers, philosophers of science, inspired by logical empiricism, have tended to be more interested in science as a multi-agent or agent-independent phenomenon.
Models and modelling play a central role in the nature of science, in its conduct, in the accreditation and dissemination of its outcomes, as well as forming a bridge to technology. They therefore have an important place in both the formal and informal science education provision made for people of all ages. This book is a product of five years collaborative work by eighteen researchers from four countries. It addresses four key issues: the roles of models in science and their implications for science education; the place of models in curricula for major science subjects; the ways that models can be presented to, are learned about, and can be produced by, individuals; the implications of all these for research and for science teacher education. The work draws on insights from the history and philosophy of science, cognitive psychology, sociology, linguistics, and classroom research, to establish what may be done and what is done. The book will be of interest to researchers in science education and to those taking courses of advanced study throughout the world.
Science Teaching argues that science teaching and science teacher education can be improved if teachers know something of the history and philosophy of science and if these topics are included in the science curriculum. The history and philosophy of science have important roles in many of the theoretical issues that science educators need to address: what constitutes an appropriate science curriculum for all students; how science should be taught in traditional cultures; how scientific literacy can be promoted; and the conflict which can occur between science curriculum and deep-seated religious or cultural values and knowledge. Outlining the history of liberal approaches to the teaching of science, Michael Matthews elaborates contemporary curriculum developments that explicitly address questions about the nature and the history of science. He provides examples of classroom teaching and develops useful arguments on constructivism, multicultural science education and teacher education.
What are scientific inquiry practices like today? How should schools approach inquiry in science education? Teaching Science Inquiry presents the scholarly papers and practical conversations that emerged from the exchanges at a two-day conference of distinctive North American ‘science studies’ and ‘learning science’scholars.