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This volume is important because despite various external representations, such as analogies, metaphors, and visualizations being commonly used by physics teachers, educators and researchers, the notion of using the pedagogical functions of multiple representations to support teaching and learning is still a gap in physics education. The research presented in the three sections of the book is introduced by descriptions of various psychological theories that are applied in different ways for designing physics teaching and learning in classroom settings. The following chapters of the book illustrate teaching and learning with respect to applying specific physics multiple representations in dif...
The main goal of the IPN Video Study is to systematically describe and analyse physics instruction and to investigate its relevance for understanding-oriented learning in the classroom. In the first phase of the IPN Video Study, various guidelines and instruments for data collection were developed and published. In the second phase of the project, a more elaborated approach was realised.This technical report provides an overview of all the tools and methods used in this study. It shows how to run a video study that analyses patterns of instruction and their impact on cognitive as well as motivational-affective learning outcomes. The report includes the documentation of the organisation and realisation of the IPN Video Study. In addition, it provides standardised guidelines for collecting video tapes. Moreover, the technical report presents standardised guidelines for the transcription of video tapes and describes the observation and coding procedures in detail. Finally, this volume reports scale documentations of all tests and questionnaires.
Reflecting the very latest theory on diversity issues in science education, including new dialogic approaches, this volume explores the subject from a range of perspectives and draws on studies from around the world. The work discusses fundamental topics such as how we conceptualize diversity as well as examining the ways in which heterogeneous cultural constructs influence the teaching and learning of science in a range of contexts. Including numerous strategies ready for adoption by interested teachers, the book addresses the varied cultural factors that influence engagement with science education. It seeks answers to the question of why increasing numbers of students fail to connect with science education in schools and looks at the more subtle impact that students’ individually constructed identities have on the teaching and learning of science. Recognizing the diversity of its audience, the book covers differing levels and science subjects, and examines material from a range of viewpoints that include pedagogy, curricula, teacher education, learning, gender, religion, and ICT, as well as those of in-service and trainee teachers at all levels.
This book explores sixteen contemporary issues in science education by examining the practical dilemmas these issues provoke for teachers. It is a unique book which presents student-teachers with personal and professional insights into a whole range of science topics including the laws of science, teaching ethics, laboratories and culture, gender and ethnicity. Each chapter takes as its focus one of the sixteen issues and begins with a case-study of a science lesson written by a practising teacher. This is followed by a short, reflective piece by the same teacher on how the lesson went and how opportunities for teaching and learning could be improved. This reflection is followed by commentar...
A group of science educators with experience of being involoved in curriculum development, and in conducting extensive research on many aspects of teaching and learning science, have combined their findings in this volume.; Each author has conducted research into his or her own area of science education and presents the implications of this research for a specific area of science teaching. The experiences of members of the Monash Children's Science Group; specifically three primary teachers and one biology teacher, have also been included so as to present the voices of teachers for whom writing a personal account of their teaching is often an unappealing task.
Conceptual change research investigates the processes through which learners substantially revise prior knowledge and acquire new concepts. Tracing its heritage to paradigms and paradigm shifts made famous by Thomas Kuhn, conceptual change research focuses on understanding and explaining learning of the most the most difficult and counter-intuitive concepts. Now in its second edition, the International Handbook of Research on Conceptual Change provides a comprehensive review of the conceptual change movement and of the impressive research it has spawned on students’ difficulties in learning. In thirty-one new and updated chapters, organized thematically and introduced by Stella Vosniadou, this volume brings together detailed discussions of key theoretical and methodological issues, the roots of conceptual change research, and mechanisms of conceptual change and learner characteristics. Combined with chapters that describe conceptual change research in the fields of physics, astronomy, biology, medicine and health, and history, this handbook presents writings on interdisciplinary topics written for researchers and students across fields.
This Reader brings together a wide range of material to present an international perspective on topical issues in science education today. In order to identify what themes should be addressed in the book, thirty-eight science educators from around the world responded to the question: 'What issues are currently important in science education in your country?' The outcome is this lively and authoritative Reader, which features topics as varied as: globalisation assessment pupil's views on science education environmental education teaching approaches teacher development multimedia and ICT constructivism. With a specially written introduction from the editor, providing a much-needed context to the current education climate, students of science education will find this Reader an important route map to further reading and understanding.
This book offers a global presentation of issues under study for improving science education research in the context of the knowledge-based society at a European and international level. It includes discussions of several theoretical approaches, research overviews, research methodologies, and the teaching and learning of science. It is based on papers presented at the Third International Conference of the European Science Education Research Association (Thessaloniki, Greece, August 2001).
This book is about the fundamental nature of talk in school science. Language as a formal system provides resources for conducting everyday affairs, including the doing of science. And while writing science is one aspect, talking science may in fact constitute a much more important means by which we navigate and know the world-the very medium through which we do science. In Talking Science Wolff-Michael Roth articulates a view of language that differs from the way science educators generally think about it. Knowing language, in this view, is no longer distinct from knowing one's way around a particular section of the world. It is a non-representational view of language and dispenses with language as a barrier between the individual subject and the world it knows. In addition, the book includes detailed analyses from actual classrooms to exemplify what such a different approach means for science education. The conclusion is that once we have learned new ways of articulating the world and talking about it, we also have learned to handle this world more easily.