This fantastic CGP Revision Guide is perfectly matched to the Higher Level Grade 9-1 OCR Gateway GCSE Physics course. Every topic is explained with clear, succinct study notes, examples and diagrams - and there are practice questions at the end of every page to test you on what you've learned (with answers and mark schemes included). We've covered all the crucial new elements of the Grade 9-1 course, including the required practicals, maths skills and Working Scientifically. What's more, a free Online Edition of the whole book is included - just use the unique access code printed inside the cover to access it on a PC, Mac or tablet! And to make sure you're 100% prepared for the final exams, a matching Physics Exam Practice Workbook is also available from CGP - see 9781782945178.

Essential terminology for Physics study pulled together in one guide to maximize success in College and High School courses. Succinct definitions by our resident Harvard Ph.D., Chemistry author and professor ensure the usefulness of this handy guide from high school to college.

This series about sound covers how sounds are made, how we hear sounds, and how and why sounds vary in pitch, frequency and volume. Every book is packed with interesting, easy-to-understand examples and hands-on, fun experiments with sound.

Exam Board: Pearson Edexcel Level: GCSE (9-1) Subject: Science First Teaching: September 2016 First Exams: June 2018 Target Grade 7 workbooks build skills from Grade 6 and extend into Grade 8 to help students to catch up, keep up and make expected progress in GCSE (9-1) Science. This workbook: targets key misconceptions and barriers to help students get back on track addresses areas of underperformance in a systematic way, with a unique approach that builds, develops and extends students' skills gets students ready for the GCSE (9-1) assessments with exercises focused around exam-style questions provides ready-to-use examples and activities addresses an area of difficulty in each unit with a unique approach, to develop and extend students' skills.

Our Revision Workbooks help you develop vital skills throughout your course in preparation for the exam with: One-to-one page match with the Revision Guide so you can find the practice you need quickly and easily Guided practice questions on every page demonstrate good technique and build confidence Loads of practice questions in the style of the new exams, with plenty of practice at problem-solving and reasoning skills Hints and tips helps you avoid common pitfalls Full set of practice papers written to match the new specification exactly

Nanoscience is of central importance in the physical and biological sciences and is now pervasive in technology. However nanomagnetism has a special role to play as magnetic properties depend uniquely on both dimensionality and lengthscales. Nanomagnetism is already central to data storage, sensor and device technologies but is increasingly being used in the life sciences and medicine. This volume aims to introduce scientists, computer scientists, engineers and technologists from diverse fields to this fascinating and technologically important new branch of nanoscience. The volume should appeal to both the interested general reader but also to the researcher wishing to obtain an overview of this fast moving field.
The contributions come from acknowledged leaders in the field who each give authoritative accounts of key fundamental aspects of nanomagnetism to which they have themselves made a major contribution. After a brief introduction by the editors, Wu first surveys the fundamental properties of magnetic nanostructures. The interlayer exchange interactions within magnetic multilayer structures is next discussed by Stiles. Camley then discusses the static, dynamic and thermal properties of magnetic multilayers and nanostructures, followed by an account of the phenomenon of exchange anisotropy by Berkowitz and Kodama. This latter phenomenon is widely in current read head devices for example. The transport properties of nanostructures also are spectacular, and again underpin computer technology, as we see from the discussion of giant magnetoresistance (GMR) and tunnelling magnetoresistance (TMR) presented by Fert and his colleagues. Beyond GMR and TMR we look to the field of spintronics where new electronic devices are envisioned and for which quantum
computing may depend as discussed in the chapter by Flatte and Jonker.
The volume concludes with discussion of the recently discovered phenomenon of current induced switching of magnetization by Edwards and Mathon.
* Subject is in the forefront of nanoscience
* All Section authors are leading figures in this key field
* Presentations are accessible to non specialists, with focus on underlying fundamentals

This book explores in detail the role of laboratory work in physics teaching and learning. Compelling recent research work is presented on the value of experimentation in the learning process, with description of important research-based proposals on how to achieve improvements in both teaching and learning. The book comprises a rigorously chosen selection of papers from a conference organized by the International Research Group on Physics Teaching (GIREP), an organization that promotes enhancement of the quality of physics teaching and learning at all educational levels and in all contexts. The topics covered are wide ranging. Examples include the roles of open inquiry experiments and advanced lab experiments, the value of computer modeling in physics teaching, the use of web-based interactive video activities and smartphones in the lab, the effectiveness of low-cost experiments, and assessment for learning through experimentation. The presented research-based proposals will be of interest to all who seek to improve physics teaching and learning.