Details

The Professional Knowledge Base of Science Teaching


The Professional Knowledge Base of Science Teaching



von: Deborah Corrigan, Justin Dillon, Richard Gunstone

96,29 €

Verlag: Springer
Format: PDF
Veröffentl.: 01.03.2011
ISBN/EAN: 9789048139279
Sprache: englisch
Anzahl Seiten: 326

Dieses eBook enthält ein Wasserzeichen.

Beschreibungen

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.
<P>Over the past twenty years much has been written about the knowledge bases claimed to be needed for teaching science. Aspects of this knowledge have changed over the last 20 years because of shifts in curriculum thinking. There is sharply increasing significance for the knowledge bases for science teaching in current trends in school science education. With the development of a standards-based approach to the quality of science teaching becoming increasingly common in the Western world, and phrases such as evidence-based practice becoming the catch-cry of attempts to "measure" such quality, it is timely to look at what constitutes evidence of quality science teaching, on what basis can such evidence be judged and how does such evidence reflect the knowledge basis of the modern day professional science teacher.</P>
<P>The time is ripe for a collection of writings (an edited book) that considers the knowledge bases seen to be required for science teaching. This book will bring together an international group&nbsp;of researchers who have researched and worked with science teachers in a number of ways and at the full range of educational levels/contexts in an attempt to make more explicit what can constitute valid evidence for making judgements about what is quality science teaching.</P>
<p>Forward.- <i>Approaches to considering the professional knowledge base of science teaching, </i>Deborah Corrigan, Richard Gunstone &amp; Justin Dillon.- <i>Blurring the boundary between the classroom and the community: Challenges for teachers’ professional knowledge,</i> Léonie Rennie.- <i>Didaktik – An appropriate framework for the professional work of science teachers?,</i> Helmut Fischler.- <i>Moving beyond deconstruction and reconstruction: Teacher knowledge-in-action,</i> Alister Jones &amp; Bronwen Cowie.- <i>Making a case for improving practice: What can be learned about high quality science teaching from teacher produced cases?,</i> John Loughran &amp; Amanda Berry.- <i>An approach to elaborating aspects of a knowledge base for expert science teaching,</i> Deborah Corrigan, Richard Gunstone.- <i>Towards a cultural view on quality science teaching, </i>Glen Aikenhead.- <i>Japanese elementary Rika teachers’ professional beliefs and knowledge of Rika teaching: How are they indigenized?, </i>Masakata Ogawa.- <i>Chinese teachers’ views of teaching culturally related knowledge in school science, </i>Hongming Ma.- <i>Teaching secondary science in rural and remote schools: Developing appropriate pedagogical knowledge and classroom practice, </i>Debra Panizzon.- <i>Argumentation in the teaching of science, </i>Maria Evagorou, Justin Dillon.- <i>Assessment literacy:  What science teachers need to know and be able to do, </i>Sandra Abell &amp; Marcelle Siegel.- <i>Supporting technological thinking: Block play in early childhood education, </i>Jill Robbins, Beverley Jane, Jacinta Bartlett.- <i>Re-conceptualizing the teaching of physics for non-majors: Motivations, constraints, and evolutions in curricular change, </i>Sandy Martinuk, Gaalen Erickson, Anthony Clarke.- <i>Developing the knowledge base of preservice science teachers: Starting the path towards expertise, </i>Stephen Keast &amp; Rebecca Cooper.- <i>Teaching science  in informal environments: Pedagogical knowledge for informal educators, </i>Lynn Uyen Tran, Heather King.-<i> Knowledge to deal with challenges to science education from without and within, </i>Peter Fensham.</p><p>
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.
<p>Supports the importance of knowledge bases for successful teaching of science</p><p>Explores what expert classroom knowledge and practices may look like if values once again become central</p><p>Represents a range of perspectives on this centrally important issue by an international group of well-known researchers</p><p>Includes supplementary material: sn.pub/extras</p>

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