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Over the past twenty years, much has been written about the knowledge bases thought necessary to teach science. Shulman has outlined seven knowledge domains needed for teaching, and others, such as Tamir, have proposed somewhat similar domains of knowledge, specifically for science teachers. Aspects of this knowledge have changed because of shifts in curriculum thinking, and the current trends in science education have seen a sharp increase in the significance of the knowledge bases. The development of a standards-based approach to the quality of science teaching has become common in the Western world, and phrases such as “evidence-based practice” have been tossed around in the attempt to “measure” such quality. The Professional Knowledge Base of Science Teaching explores the knowledge bases considered necessary for science teaching. It brings together a number of researchers who have worked with science teachers, and they address what constitutes evidence of high quality science teaching, on what basis such evidence can be judged, and how such evidence reflects the knowledge basis of the modern day professional science teacher. This is the second book produced from the Monash University- King’s College London International Centre for the Study of Science and Mathematics Curriculum. The first book presented a big picture of what science education might be like if values once again become central while this book explores what classroom practices may look like based on such a big picture.
Jan van Driel presents an overview of his research on the professional knowledge that science teachers develop and enact in their teaching to promote student understanding and engagement in science.
The International Handbook of Science Education is a two volume edition pertaining to the most significant issues in science education. It is a follow-up to the first Handbook, published in 1998, which is seen as the most authoritative resource ever produced in science education. The chapters in this edition are reviews of research in science education and retain the strong international flavor of the project. It covers the diverse theories and methods that have been a foundation for science education and continue to characterize this field. Each section contains a lead chapter that provides an overview and synthesis of the field and related chapters that provide a narrower focus on research and current thinking on the key issues in that field. Leading researchers from around the world have participated as authors and consultants to produce a resource that is comprehensive, detailed and up to date. The chapters provide the most recent and advanced thinking in science education making the Handbook again the most authoritative resource in science education.
Highly qualified and competent teachers are fundamental for equitable and effective education systems. Teachers today are facing higher and more complex expectations to help students reach their full potential and become valuable members of 21st century society. The nature and variety of these ...
"Bishop and Denley in Learning Science Teaching have focused as much on good pedagogy as on the peculiarities of science teaching. It is for this reason that their book will be of value not only to trainees in education, but also to a range of professionals working in schools, Higher Education and, in particular, to those responsible for planning and delivering CPD. It is far more than a test for trainee teachers." Science Teacher Education "Any science teacher looking for ways to improve their teaching will find this book helpful...there is perceptive discussion of almost everything that can happen in a science classroom, and related work outside it." Physics Education What do you need to know to be a successful science teacher? How do you develop or acquire that knowledge? If you are just embarking on your learning journey as a science teacher, or are involved in supporting beginning and early career teachers on their way, then this book is written for you. The authors show how the route to success involves the development of a personal, yet distinctive and complex set of inter-related professional knowledge bases. Throughout the book, the classroom practice of a group of highly accomplished science teachers is analysed to reveal the knowledge bases that they have acquired, which the reader can then reflect upon. In addition, students provide penetrating insights into the kinds of science teaching that engages them. The book argues that highly accomplished science teachers are also continually learning science teachers. It stresses the importance of learning through others, by participation in communities of science practitioners, as well as individual learning through classroom research. Whether you are a beginning teacher or a more experienced teacher looking to support beginning and early career teachers, this book offers a rich source of experiences, ideas and insights to support you on your journey to becoming a successful science teacher.
Transforming education into an evidence-based field depends in no small part on a strong base of scientific knowledge to inform educational policy and practice. Advancing Scientific Research in Education makes select recommendations for strengthening scientific education research and targets federal agencies, professional associations, and universitiesâ€"particularly schools of educationâ€"to take the lead in advancing the field.
The book argues that highly accomplished science teachers are also continually learning science teachers. It stresses the importance of learning through others, by participation in communities of science practitioners, as well as individual learning through classroom research.
Chemical education is essential to everybody because it deals with ideas that play major roles in personal, social, and economic decisions. This book is based on three principles: that all aspects of chemical education should be associated with research; that the development of opportunities for chemical education should be both a continuous process and be linked to research; and that the professional development of all those associated with chemical education should make extensive and diverse use of that research. It is intended for: pre-service and practising chemistry teachers and lecturers; chemistry teacher educators; chemical education researchers; the designers and managers of formal chemical curricula; informal chemical educators; authors of textbooks and curriculum support materials; practising chemists and chemical technologists. It addresses: the relation between chemistry and chemical education; curricula for chemical education; teaching and learning about chemical compounds and chemical change; the development of teachers; the development of chemical education as a field of enquiry. This is mainly done in respect of the full range of formal education contexts (schools, universities, vocational colleges) but also in respect of informal education contexts (books, science centres and museums).
There has been a growing interest in the notion of a scholarship of teaching. Such scholarship is displayed through a teacher’s grasp of, and response to, the relationships between knowledge of content, teaching and learning in ways that attest to practice as being complex and interwoven. Yet attempting to capture teachers’ professional knowledge is difficult because the critical links between practice and knowledge, for many teachers, is tacit. Pedagogical Content Knowledge (PCK) offers one way of capturing, articulating and portraying an aspect of the scholarship of teaching and, in this case, the scholarship of science teaching. The research underpinning the approach developed by Loughran, Berry and Mulhall offers access to the development of the professional knowledge of science teaching in a form that offers new ways of sharing and disseminating this knowledge. Through this Resource Folio approach (comprising CoRe and PaP-eRs) a recognition of the value of the specialist knowledge and skills of science teaching is not only highlighted, but also enhanced. The CoRe and PaP-eRs methodology offers an exciting new way of capturing and portraying science teachers’ pedagogical content knowledge so that it might be better understood and valued within the profession. This book is a concrete example of the nature of scholarship in science teaching that is meaningful, useful and immediately applicable in the work of all science teachers (preservice, in-service and science teacher educators). It is an excellent resource for science teachers as well as a guiding text for teacher education.
Science education has to be improved in order to become more responsive to the needs of society confronted with a rapidly changing world. Bringing science teaching up to a higher level is a key factor in this endeavour. The authors of this book think about teachers as part of the immediate and large communities and systems in which they function. They consider the development of teachers’ professional knowledge as a continuous process that depends on the communities they are committed to and participate in, the discipline they are teaching, the social context in which they perform, the instruments made available in their environment, and their day-to-day classroom experience. From this perspective, each teacher learns in an individual way, but cannot learn without relying on their colleagues and other partners. Such professional knowledge is partly tacit and explicit, and thus possessed by teachers, experts and researchers. Coordinating activity theory and models of pedagogical content knowledge (PCK), the book provides a better understanding of the growth of science teacher professional knowledge. The chapters are organised around shared perspectives and themes and based on research findings. The emerging model can inform pre-service teacher educators, researchers and students. The book results from exchanges and symposia during international conferences (ECER, ESERA) and from a two-day seminar held at Université Grenoble Alpes in March 2015.