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This revision guide provides in-depth coverage of all the externally assessed course content for GCSE OCR B Additional Science. This book can be used to support study throughout the course and as a revision aid in the build up to exams. * In-depth coverage provides everything required for thorough exam preparation * Detailed explanations and diagrams help consolidate and build on knowledge throughout the course * Clear design and direct references to the specification provide structured revision and maximum assurance. This revision guide provides in-depth coverage of all the externally assessed course content for GCSE OCR B Additional Science. This book can be used to support study throughout the course and as a revision aid in the build up to exams. * In-depth coverage provides everything required for thorough exam preparation * Detailed explanations and diagrams help consolidate and build on knowledge throughout the course * Clear design and direct references to the specification provide structured revision and maximum assurance.
This book aims to cover all the GCSE Physics material needed to meet the specifications of the examining boards Edexcel, AQA, WJEC and OCR (both 21st Century Science and Gateway) both for single and double awards. The content also covers the additional topics necessary for the Physics GCSE single award. It is the third book in the series following
A revision guide that covers the core content of the OCR Science A (single award) specification, from the Twenty First Century Science Suite.
These new resources have been written to match the 2016 OCR GCSE Gateway Science (9-1) specifications. Built-in assessment and differentiation supports students of all abilities and makes progress tracking easy. Maths skills and practical skills are developed throughout with ramped practice questions and differentiated learning outcomes.
Serving as a suite of complementary specifications, this title offers options for science at GCSE. Its specifications and resources are the products of collaboration between the University of York Science Education Group, the Nuffield Curriculum Centre, OCR, and Oxford University Press.
A revision guide for those doing separate sciences, it aims to cover what they need to know for their course. It contains separate science content that double science people don't have to cover.
What must we teach students to enable them to fully participate in a world community where science and technology play an increasingly significant role? Comprehensive, thought-provoking, and indispensable, PISA Science 2006, provides educators with a top-down view of where we stand today in science education and what this means for students and educators.
There are two key questions at the heart of the ongoing debate about education and training for all young people, irrespective of background, ability or attainment: What counts as an educated 19 year old today? Are the models of education we have inherited from the past sufficient to meet the needs of all young people, as well as the social and economic needs of the wider community? Education for All addresses these questions in the light of evidence collected over five years by the Nuffield Review of 14-19 Education and Training: the most rigorous investigation of every aspect of this key educational phase for decades. Written by the co-directors of the Nuffield Review, Education for All provides a critical, comprehensive and thoroughly readable overview of 14-19 education and training and makes suggestions for the kind of education and training that should be provided over the coming decade and beyond. The authors acknowledge that much has been achieved by the respective governments – massive investment in resources; closer collaboration between schools, colleges, training providers, voluntary agencies and employers; recognition and promotion of a wider range of qualifications. They are also optimistic about the good things that are going on in many secondary classrooms – enormous amounts of creativity; courageous efforts to meet problems; a deep concern and caring for many young people otherwise deprived of hope and opportunity. But they argue for a radical reshaping of the future in the light of a broader vision of education – a greater respect for more practical and active learning; a system of assessment which supports rather than impoverishes learning; respect for the professional expertise of the teacher; a more unified system of qualifications ensuring progression into higher education and employment; the creation of strongly collaborative and local learning systems; and a more reflective and participative approach to policy. Education for All should be read by everyone working in – or with an interest in – secondary-level education in England and Wales and beyond.
One of the central features in current educational reforms is a focus on learning outcomes. Many countries have established or revised standards to describe what teachers are supposed to teach and students are expected to learn. More recently, the emphasis has shifted to considerations of how standards can be operationalized in order to make the outcomes of educational efforts more tangible. This book is the result of a symposium held in Kiel, that was arranged by two science education groups, one at the IPN (Leibniz-Institute for Science and Mathematics Education at the University of Kiel) in Germany and the other at the University of York, UK. The seminar brought together renowned experts from 12 countries with different notions of the nature and quality of learning outcomes. The aim was to clarify central conceptions and approaches for a better understanding among the international science education community. The book is divided into five parts. In Part A, the organizers set the scene, describing the rationale for arranging the symposium. Part B provides a broad overview about different approaches, challenges, and pitfalls on the road to the clarification of meaningful and fruitful learning outcomes. The set of papers in Part C provides deep insights into different, although comparable approaches which aim to frame, to assess, and to promote learning and learning outcomes in science education. Smaller projects are presented as well as broad, coordinated national programs. The papers in Part D outline the individual historical development from different national perspectives, reflecting the deficits and problems that led to current reforms. Finally, a summary of the organizers analyses the conclusions from different vantage points.