Practical Electrodynamics with Advanced Applications
By (author) Sergey Leble
Publication date:
16 December 2020Length of book:
434 pagesPublisher
Institute Of Physics PublishingDimensions:
254x178mm7x10"
ISBN-13: 9780750325745
This textbook covers the advanced application and techniques of electrodynamics. The book begins with an introduction to the topic, with basic notations and equations presented, before moving on to examine various topics such as electromagnetic waves in a vacuum, the theory of relativity (including the Lorentz transformation) and electromagnetic fields in matter. Dispersion and transport are discussed, along with wave interactions in types of plasma and metamaterials, before the problems of electromagnetism in continuous matter are reviewed, and boundary interactions are studied.
The second half of the book looks at the more advanced topics, including dielectric guides techniques, further metamaterial and plasma interactions (such as helicoidal phenomena), interactions involving conductivity and X-ray, and magnetic field dynamics. Condensed matter equations are covered along with more general matter relations, and an advanced study of the direct and inverse problems of electrodynamics closes the topic. Finally, advanced exercises are available in the final chapter.
This is an excellent learning tool for students studying electrodynamics courses, and serves as a robust resource for anyone involved in the field.
Key Features
- Provides discussions of fundamental principles
- Includes simplified exercises to assist the reader
- Simplified to bridge the gap between classical and applied mathematics
This book would be most useful for those interested in electromagnetic theory who are looking to explore alternative and more advances views on the theory and methods used in electromagnetics. Alternatives cover formula derivations and how to approach problems. This is a very mathematics heavy book, with an assumption that the reader already has a basic understanding of electromagnetics.
John J. Shea, 2022, IEEE Electrical Insulation Magazine