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Salters Science is a GCSE science programme which offers a motivating, context-led approach to GCSE science. Its underlying principles make teaching science an interactive process, with the aim of improving the results students achieve by inspiring them to want to learn more.
This student book for year 11 provides all the information needed to cover the specification for GCSE science. It is interactive and includes questions and exercises.
The "Salters Horners Advanced Physics" series places physics into social, industrial, environmental and historical contexts, and covers the A Level specifications in place from September 2000. This A2 Level student book features maths support notes and applications-led illustrations of physics.
In recognizing that new teachers often feel disempowered by the subject expertise they bring into teaching, this book not only covers the training standards for NQTs and the Induction Standards, but takes the reader beyond this by fully exploring issues relating to subject knowledge in learning to teach. Divided into three sections the book covers: framing the subject - defining subject knowledge and focusing on questions about science as a school subject teaching the subject - looking at pedagogical, curricular and pupil knowledge science within the professional community - focusing on the place of science within the wider curriculum and the teaching community. This refreshing new book provides stimulating assistance to subject specialists, from new teachers of science in the early years of professional development to those on a PGCE course or in their induction year. It is also suitable for subject leaders with mentor responsibilities and Advanced Skills Teachers undertaking specialist inset and teaching support.
'Teaching in context' has become an accepted, and often welcomed, way of teaching science in both primary and secondary schools. The conference organised by IPN and the University of York Science Education Group, Context-based science curricula, drew on the experience of over 40 science educators and 10 projects. The book is arranged in four parts. Part A consists of two papers, one on situated learning and the other on implementation of new curricula. Part B contains descriptions of five major curricula in different countries, why they were introduced, how they were developed and implemented and evaluation results. Part C gives descriptions of three projects that are of smaller scale and their materials are used as interventions in other more conventional curricula. There is also a contribution on some fundamental research where modules of work are written to examine how best to design context-based curricula. Finally, Part D consist of two chapters, one summarising some of the findings that came out of the chapters in the three earlier parts and the second looks at the future.
Gunther Kress, a pioneer in the field of multimodality and the co-author of the bestselling Reading Images, produces a comprehensive theoretical framework for the study of the topic providing sample analyses and suggestions for further reading.
This book is aimed at chemistry teachers, teacher educators, chemistry education researchers, and all those who are interested in increasing the relevance of chemistry teaching and learning as well as students' perception of it. The book consists of 20 chapters. Each chapter focuses on a certain issue related to the relevance of chemistry education. These chapters are based on a recently suggested model of the relevance of science education, encompassing individual, societal, and vocational relevance, its present and future implications, as well as its intrinsic and extrinsic aspects. “Two highly distinguished chemical educators, Ingo Eilks and AviHofstein, have brought together 40 internationally renowned colleagues from 16 countries to offer an authoritative view of chemistry teaching today. Between them, the authors, in 20 chapters, give an exceptional description of the current state of chemical education and signpost the future in both research and in the classroom. There is special emphasis on the many attempts to enthuse students with an understanding of the central science, chemistry, which will be helped by having an appreciation of the role of the science in today’s world. Themes which transcend all education such as collaborative work, communication skills, attitudes, inquiry learning and teaching, and problem solving are covered in detail and used in the context of teaching modern chemistry. The book is divided into four parts which describe the individual, the societal, the vocational and economic, and the non-formal dimensions and the editors bring all the disparate leads into a coherent narrative, that will be highly satisfying to experienced and new researchers and to teachers with the daunting task of teaching such an intellectually demanding subject. Just a brief glance at the index and the references will convince anyone interested in chemical education that this book is well worth studying; it is scholarly and readable and has tackled the most important issues in chemical education today and in the foreseeable future.” – Professor David Waddington, Emeritus Professor in Chemistry Education, University of York, United Kingdom
The second edition of this popular student textbook presents an up-to-date and comprehensive introduction to the process and practice of teaching and learning science in the secondary school.
Science education has undergone far-reaching changes in the last fifty years. The articles collected together in this reader examine how we have reached our present consensus and what theories we now use to explain how children learn science. The central sections of the reader examine how all this can be translated into effective and stimulating teaching, how learning can be most accurately and fairly assessed and how the impact of gender, ethnicity and other factors on children's performance can be addressed in methods of teaching which make science accessible to all. The articles in the final section of the book are a reminder that the debate is not finished yet and raise some challenging questions about what science education is and what it is for.