A Review of Numerical Problems in Solid State Physics by M. A. Wahab
Solid state physics is a branch of physics that deals with the structure and properties of materials in their solid phase. It covers topics such as crystal structures, lattice vibrations, electronic band theory, semiconductors, magnetism, superconductivity and more. To understand these topics, one needs to have a good grasp of the mathematical methods and techniques involved in solving problems related to solid state physics.
Numerical Problems in Solid State Physics by M. A. Wahab is a companion volume to his first book on Solid State Physics: Structure and Properties of Materials. It consists of about 600 solved examples in 14 chapters on different topics of solid state physics and condensed matter physics. The book aims to provide students and teachers with a comprehensive collection of numerical problems that can help them master the concepts and applications of solid state physics.
The book follows a systematic approach to solving problems. Each chapter begins with a brief introduction to the topic, followed by a set of solved examples that illustrate the main concepts and formulas. The examples are arranged in increasing order of difficulty and complexity, and cover both theoretical and experimental aspects of solid state physics. The book also provides hints and answers to some selected unsolved problems at the end of each chapter.
The book is written in a clear and concise style, with detailed explanations and calculations. The book uses SI units throughout, and follows the standard notation and conventions used in solid state physics. The book is suitable for undergraduate and postgraduate students of physics, engineering and materials science, as well as for researchers and professionals who want to refresh their knowledge of solid state physics.
Numerical Problems in Solid State Physics by M. A. Wahab is a valuable resource for anyone who wants to learn and practice solid state physics. It is available as a PDF file from various online sources[^1^] [^2^] [^3^].
Solid state physics has a lot of real-life applications. Some of them are:
Solid state physics helps us to understand the behaviour and properties of semiconductors used in electronic devices such as computers and mobile phones. It also helps in designing optical devices such as lasers and fibre optics[^3^] [^4^].
Solid state physics enables us to manipulate the electrical, magnetic and optical properties of materials by changing their structure, composition or doping. This leads to the development of new materials and devices such as solar cells, LEDs, sensors, memory devices and more.
Solid state physics explores the exotic phenomena that arise in certain materials at low temperatures or high pressures, such as superconductivity, superfluidity, quantum Hall effect and topological insulators. These phenomena have potential applications in quantum computing, metrology and nanotechnology.
Solid state physics is a vibrant and interdisciplinary field that connects physics, chemistry, engineering and mathematics. It is constantly evolving and expanding with new discoveries and challenges. It is also a fundamental science that reveals the beauty and complexity of nature at the atomic scale. aa16f39245