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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.
Science Teaching explains how history and philosophy of science contributes to the resolution of persistent theoretical, curricular, and pedagogical issues in science education. It shows why it is essential for science teachers to know and appreciate the history and philosophy of the subject they teach and how this knowledge can enrich science instruction and enthuse students in the subject. Through its historical perspective, the book reveals to students, teachers, and researchers the foundations of scientific knowledge and its connection to philosophy, metaphysics, mathematics, and broader social influences including the European Enlightenment, and develops detailed arguments about constructivism, worldviews and science, multicultural science education, inquiry teaching, values, and teacher education. Fully updated and expanded, the 20th Anniversary Edition of this classic text, featuring four new chapters—The Enlightenment Tradition; Joseph Priestley and Photosynthesis; Science, Worldviews and Education; and Nature of Science Research—and 1,300 references, provides a solid foundation for teaching and learning in the field.
This anthology opens new perspectives in the domain of history, philosophy, and science teaching research. Its four sections are: first, science, culture and education; second, the teaching and learning of science; third, curriculum development and justification; and fourth, indoctrination. The first group of essays deal with the neglected topic of science education and the Enlightenment tradition. These essays show that many core commitments of modern science education have their roots in this tradition, and consequently all can benefit from a more informed awareness of its strengths and weaknesses. Other essays address research on leaning and teaching from the perspectives of social epistemology and educational psychology. Included here is the first ever English translation of Ernst Mach’s most influential 1890 paper on ‘The Psychological and Logical Moment in Natural Science Teaching’. This paper launched the influential Machian tradition in education. Other essays address concrete cases of the utilisation of history and philosophy in the development and justification of school science curricula. These are instances of the supportive relation of HPS&ST research to curriculum theorising. Finally, two essays address the topic of Indoctrination in science education; a subject long-discussed in philosophy of education, but inadequately in science education. This book is a timely reminder of why history and philosophy of science are urgently needed to support understanding of science. From major traditions such as the Enlightenment to the tensions around cultural studies of science, the book provides a comprehensive context for the scientific endeavour, drawing on curriculum and instructional examples. Sibel Erduran, University of Oxford, UK The scholarship that each of the authors in this volume offers deepens our understanding of what we teach in science and why that understanding matters. This is an important book exploring a wide set of issues and should be read by anyone with an interest in science or science education. Jonathan Osborne, Stanford University, USA This volume presents new and updated perspectives in the field, such as the Enlightenment Tradition, Cultural Studies, Indoctrination in Science Education, and Nature of Science. Highly recommended. Mansoor Niaz, Universidad de Oriente, Venezuela This volume provides an extremely valuable set of insights into educational issues related to the history and philosophy of science. Michael J Reiss, University College London, UK
By allowing key scientists, researchers, professors, and classroom teachers of science to speak for themselves through their published writings about what is best and needed for the field, Dr. DeBoer presents a fascinating account of the history of science education in the United States from the middle of the 19th century to the present. The book relates how science first struggled to find a place in the school curriculum and recounts the many debates over the years about what that curriculum should be. In fact, many of what we consider modern ideas in science education are not new at all but can be traced to writings on education of one hundred years ago. The book is aimed at all those interested in science education: classroom teachers and science education leaders concerned about the historical justification of the goals and strategies proposed for the field. The book should be enjoyed not only by the researcher but also by anyone curious about just how curriculum is decided upon and implemented on a national scale. “This is without question the finest book of its kind on the market. It deserves to be widely read by current and future science teachers, supervisors, science education faculty in colleges and universities, curriculum developers, and program officers in funding agencies.” —The Science Teacher “Adds a significant dimension to the history of American schooling and curriculum.” —History of Education Quarterly
This inaugural handbook documents the distinctive research field that utilizes history and philosophy in investigation of theoretical, curricular and pedagogical issues in the teaching of science and mathematics. It is contributed to by 130 researchers from 30 countries; it provides a logically structured, fully referenced guide to the ways in which science and mathematics education is, informed by the history and philosophy of these disciplines, as well as by the philosophy of education more generally. The first handbook to cover the field, it lays down a much-needed marker of progress to date and provides a platform for informed and coherent future analysis and research of the subject. The publication comes at a time of heightened worldwide concern over the standard of science and mathematics education, attended by fierce debate over how best to reform curricula and enliven student engagement in the subjects. There is a growing recognition among educators and policy makers that the learning of science must dovetail with learning about science; this handbook is uniquely positioned as a locus for the discussion. The handbook features sections on pedagogical, theoretical, national, and biographical research, setting the literature of each tradition in its historical context. It reminds readers at a crucial juncture that there has been a long and rich tradition of historical and philosophical engagements with science and mathematics teaching, and that lessons can be learnt from these engagements for the resolution of current theoretical, curricular and pedagogical questions that face teachers and administrators. Science educators will be grateful for this unique, encyclopaedic handbook, Gerald Holton, Physics Department, Harvard University This handbook gathers the fruits of over thirty years’ research by a growing international and cosmopolitan community Fabio Bevilacqua, Physics Department, University of Pavia
Science Teaching explains how history and philosophy of science contributes to the resolution of persistent theoretical, curricular, and pedagogical issues in science education. It shows why it is essential for science teachers to know and appreciate the history and philosophy of the subject they teach and how this knowledge can enrich science instruction and enthuse students in the subject. Through its historical perspective, the book reveals to students, teachers, and researchers the foundations of scientific knowledge and its connection to philosophy, metaphysics, mathematics, and broader social influences including the European Enlightenment, and develops detailed arguments about constructivism, worldviews and science, multicultural science education, inquiry teaching, values, and teacher education. Fully updated and expanded, the 20th Anniversary Edition of this classic text, featuring four new chapters—The Enlightenment Tradition; Joseph Priestley and Photosynthesis; Science, Worldviews and Education; and Nature of Science Research—and 1,300 references, provides a solid foundation for teaching and learning in the field.
Teaching Science Fiction is the first text in thirty years to explore the pedagogic potential of that most intellectually stimulating and provocative form of popular literature: science fiction. Innovative and academically lively, it offers valuable insights into how SF can be taught historically, culturally and practically at university level.
First released in the Spring of 1999, How People Learn has been expanded to show how the theories and insights from the original book can translate into actions and practice, now making a real connection between classroom activities and learning behavior. This edition includes far-reaching suggestions for research that could increase the impact that classroom teaching has on actual learning. Like the original edition, this book offers exciting new research about the mind and the brain that provides answers to a number of compelling questions. When do infants begin to learn? How do experts learn and how is this different from non-experts? What can teachers and schools do-with curricula, classroom settings, and teaching methodsâ€"to help children learn most effectively? New evidence from many branches of science has significantly added to our understanding of what it means to know, from the neural processes that occur during learning to the influence of culture on what people see and absorb. How People Learn examines these findings and their implications for what we teach, how we teach it, and how we assess what our children learn. The book uses exemplary teaching to illustrate how approaches based on what we now know result in in-depth learning. This new knowledge calls into question concepts and practices firmly entrenched in our current education system. Topics include: How learning actually changes the physical structure of the brain. How existing knowledge affects what people notice and how they learn. What the thought processes of experts tell us about how to teach. The amazing learning potential of infants. The relationship of classroom learning and everyday settings of community and workplace. Learning needs and opportunities for teachers. A realistic look at the role of technology in education.
Findings generated by recent research in science education, international debate on the guiding purposes of science education and the nature of scientific and technological literacy, official and semi-official reports on science education (including recommendations from prestigious organizations such as AAAS and UNESCO), and concerns expressed by scientists, environmentalists and engineers about current science education provision and the continuing low levels of scientific attainment among the general population, have led to some radical re-thinking of the nature of the science curriculum. There has been a marked shift of rhetorical emphasis in the direction of considerations of the nature of science, model-based reasoning, inquiry-based learning, scientific argumentation and the use of language-rich learning experiences (reading, writing, talking) to enhance concept acquisition and development. These findings, arguments and pronouncements seem to point very clearly in the direction of regarding science education as a study of scientific practice. This book presents a comprehensive, research-based account of how such a vision could be assembled into a coherent curriculum and presented to students in ways that are meaningful, motivating and successful. The author takes what might be described as an anthropological approach in which scientists are studied as a socially, economically and politically important community of people. This group has its own distinctive language, body of knowledge, investigative methods, history, traditions, norms and values, each of which can be studied explicitly, systematically and reflectively. This particular approach was chosen for the powerful theoretical overview it provides and for its motivational value, especially for students from sociocultural groups currently under-served by science education and under-represented in science. The book, which is both timely and important, is written for teachers, student teachers, graduate students in education, teacher educators, curriculum developers and those responsible for educational policy. It has the potential to impact very substantially on both pre-service and inservice science teacher education programmes and to shift school science education practice strongly in the direction currently being advocated by prominent science educators.