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Providing a working understanding of materials physics without the typical lengthy and exhaustive discussions found in other books, The Materials Physics Companion offers an accessible introduction to the most important concepts of materials physics. Following the style of the author's other companions, this book maintains a reader-friendly
Understand the Physics of the Solid State Updated and expanded with new topics, The Materials Physics Companion, 2nd Edition puts the physics of the solid state within the reach of students by offering an easy-to-navigate pathway from basic knowledge through to advanced concepts. This edition illustrates how electrical and magnetic properties of matter arise from the basic principles of quantum mechanics in a way that is accessible to science and engineering students. A Convenient, Student-Friendly Format Rich with Diagrams and Clear Explanations The book uses the unique signature style of the author’s other companion books, providing detailed graphics, simple and clear explanations of difficult concepts, and annotated mathematical treatments. It covers quantum mechanics, x-ray analysis, solid-state physics, the mechanical and thermal properties of solids, the electrical and magnetic properties of solids, and superconductivity, assuming no prior knowledge of these advanced areas. Suitable for undergraduate students in science and engineering, the book is also a handy refresher for professional scientists and educators. Be sure to check out the author’s other companion books: The Mathematics Companion: Mathematical Methods for Physicists and Engineers, 2nd Edition The Physics Companion, 2nd Edition The Electronics Companion: Devices and Circuits for Physicists and Engineers, 2nd Edition The Chemistry Companion
An authoritative reference on soil physics, Soil Physics Companion is lavishly illustrated with graphs, charts, line drawings, and equations. The book provides a valuable source of material and reference for most contemporary topics of soil physics and the vadose zone - arguably the most comprehensive volume available. In addition to being a reliab
Introducing the reader to the very latest developments in the philosophical foundations of physics, this book covers advanced material at a level suitable for beginner and intermediate students. A detailed overview is provided of the central debates in the philosophy of quantum mechanics, statistical mechanics, quantum computation, and quantum gravity. Each chapter consists of a 'state of the art' review written by a specialist in the field and introduces the reader to the relevant formal aspects along with the philosophical implications. These, and the various interpretive options, are developed in a self-contained, clear, and concise manner. Special care is given to situating the reader within the contemporary debates by providing numerous references and readings. This book thus enables both philosophers and physicists to engage with the most pressing problems in contemporary philosophy of physics in a fruitful way.
Everything You Need to Know about Mathematics for Science and Engineering Updated and expanded with new topics, The Mathematics Companion: Mathematical Methods for Physicists and Engineers, 2nd Edition presents the essential core of mathematical principles needed by scientists and engineers. Starting from the basic concepts of trigonometry, the book covers calculus, differential equations, and vector calculus. A new chapter on applications discusses how we see objects "mathematically" with the eye, how quantum mechanics works, and more. A Convenient, Student-Friendly Format Rich with Diagrams and Clear Explanations The book presents essential mathematics ideas from basic to advanced level in a way that is useful to both students and practicing professionals. It offers a unique and educational approach that is the signature style of the author’s companion books. The author explains mathematical concepts clearly, concisely, and visually, illustrating how scientists use the language of mathematics to describe and communicate physical principles. Be sure to check out the author’s other companion books: The Materials Physics Companion, 2nd Edition The Physics Companion, 2nd Edition The Electronics Companion: Devices and Circuits for Physicists and Engineers, 2nd Edition The Chemistry Companion
Written by the author of the hugely successful The Physics Companion, The Electronics Companion covers the core topics of electrical engineering, providing a logical and consistent account of the way in which basic electronic circuits are designed and how they work. The author illustrates key concepts and principles of electronic devices in clear, one-page, figure-rich descriptions. Intended as a support to more conventional electronics texts, the book contains many worked examples and review questions throughout. It concludes with a laboratory section describing experiments that can be carried out by students in their own time or under the supervision of an instructor. Discussing the principal issues of electrical and electronic engineering and applied physics, this book will be an invaluable resource to students revising for exams and throughout the course of their degree.
More than a graduate text and advanced research guide on condensed matter physics, this volume emphasizes applications rather than theory. Self-contained chapters examine simple liquids, electron systems and correlations, two-dimensional electron systems, quasi one-dimensional systems, hopping and localization, magnetism, superconductivity, liquid helium, and polymers. Appendixes offer background on molecular distribution functions. 1991 edition.
Following the style of The Physics Companion and The Electronics Companion, this book is a revision aid and study guide for undergraduate students in physics and engineering. It consists of a series of one-page-per-topic descriptions of the key concepts covered in a typical first-year "mathematics for physics" course. The emphasis is placed on relating the mathematical principles being introduced to real-life physical problems. In common with the other companions, there is strong use of figures throughout to help in understanding of the concepts under consideration. The book will be an essential reference and revision guide, particularly for those students who do not have a strong background in mathematics when beginning their degree.
Designed for advanced undergraduate students and as a useful reference book for materials researchers, Physical Properties of Materials, Third Edition establishes the principles that control the optical, thermal, electronic, magnetic, and mechanical properties of materials. Using an atomic and molecular approach, this introduction to materials science offers readers a wide-ranging survey of the field and a basis to understand future materials. The author incorporates comments on applications of materials science, extensive references to the contemporary and classic literature, and 350 end-of-chapter problems. In addition, unique tutorials allow students to apply the principles to understand applications, such as photocopying, magnetic devices, fiber optics, and more. This fully revised and updated Third Edition includes new materials and processes, such as topological insulators, 3-D printing, and more information on nanomaterials. The new edition also now adds Learning Goals at the end of each chapter and a Glossary with more than 500 entries for quick reference.
Designed for advanced undergraduate students, Physical Properties of Materials, Second Edition establishes the principles that control the optical, thermal, electronic, magnetic, and mechanical properties of materials. Using an atomic and molecular approach, this introduction to materials science offers students a wide-ranging survey of the field and a basis to understand future materials. The author incorporates comments on applications of materials science, extensive references to the contemporary and classic literature, and problems at the end of each chapter. In addition, unique tutorials allow students to apply the principles to understand applications, such as photocopying, magnetic devices, fiber optics, and more. This fully revised and updated second edition presents a discussion of materials sustainability, a description of crystalline structures, and discussion of current and recent developments, including graphene, carbon nanotubes, nanocomposites, magnetocaloric effect, and spintronics. Along with a new capstone tutorial on the materials science of cymbals, this edition contains more than 60 new end-of-chapter problems, bringing the total to 300 problems. Web Resource The book’s companion website (www.physicalpropertiesofmaterials.com) provides updates to the further reading sections, links to relevant movies and podcasts for each chapter, video demonstrations, and additional problems. It also offers sources of demonstration materials for lectures and PowerPoint slides of figures from the book. More information can be found on a recent press release describing the book and the website.