- 654 pages
- English
- PDF
- Available on iOS & Android
Classical Theory of Electric and Magnetic Fields
About This Book
Classical Theory of Electric and Magnetic Fields is a textbook on the principles of electricity and magnetism. This book discusses mathematical techniques, calculations, with examples of physical reasoning, that are generally applied in theoretical physics. This text reviews the classical theory of electric and magnetic fields, Maxwell's Equations, Lorentz Force, and Faraday's Law of Induction. The book also focuses on electrostatics and the general methods for solving electrostatic problems concerning images, inversion, complex variable, or separation of variables. The text also explains magnetostatics and compares the calculation methods of electrostatics with those of magnetostatics. The book also discusses electromagnetic wave phenomena concerning wave equations with a source term and the Maxwell equations which are linear and homogenous. The book also explains Einstein's the Special Theory of Relativity which is applicable' only to inertial coordinate systems. The text also discusses the particle aspects of electromagnetic field equations such as those concerning wave equations for particles with spin. This textbook is intended for graduate or advanced students and academicians in the field of physics.
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Table of contents
- Front Cover
- Classical Theory of Electric and Magnetic Fields
- Copyright Page
- Table of Contents
- Preface
- Acknowledgments
- Classical Theory of Electric and Magnetic Fields
- Chapter 1. Introduction
- Chapter 2. Development of Maxwell's Equations
- Chapter 3. Cartesian Vector and Tensor Analysis
- Chapter 4. Electrostatics
- Chapter 5. Magnetostatics
- Chapter 6. Dynamical Maxwell Equations
- Chapter 7. Wave Phenomena
- Chapter 8. The Special Theory of Relativity
- Chapter 9. Radiation
- Chapter 10. Waves and Metallic boundary Conditions
- Chapter 11. Particle Aspects of Electromagnetic Field Equations
- Index