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Electromagnetic Field Theory Fundamentals

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Author: Li Houmin; Li Shiyong; Hu Bing; Chen Zhong; ;
Language: English
Page: 424
Publication Date: 03/2022
ISBN: 9787576307030
Publisher: Beijing Institute of Technology Press
Table of Contents

Chapter 1 Vector Analysis

§ 1. 1 Vector Function and Vector Operations

§ 1. 2 Cartesian Curvilinear System

§ 1. 3 Gradient, Divergence, and Curl

§ 1. 4 Several Important Vector Fields

§ 1. 5? δ Function, Green??s Theorem, and Helmholtz Theorem

Chapter 2 Electrostatics

§ 2. 1 Charge and Charge Density

§ 2. 2 Coulomb??s Law

§ 2. 3 Electric Field and Electric Field Intensity

§ 2. 4 Electric Field Line and Electric Flux

§ 2. 5 Gauss??s Law

§ 2. 6 Electrostatic Field Loop Theorem

§ 2. 7 Electric Potential and Potential Difference

§ 2. 8 Poisson??s and Laplace??s Equation of Electric Potential

§ 2. 9 Electric Dipole

§ 2. 10 Electrostatic Field in Dielectrics

§ 2. 11 Conductors in Electrostatic Field

§ 2. 12 Energy and Force of Electric Field

§ 2. 13 Capacitor

Chapter 3 Steady Electric Field and Current

§ 3. 1 Current and Current Density

§ 3. 2 Fundamental Laws of Steady Current Field

§ 3. 3 Power Source and Electromotive Potential

§ 3. 4 Ohm??s Law and Joule??s Law

§ 3. 5 Boundary Condition of Steady Current Field

 § 3. 6 Comparison Between Steady Current Field and Electrostatic Field

Chapter 4 Magnetostatic Field

§ 4. 1 Magnetic Force and Magnetic Field Intensity

§ 4. 2 Motion of Charged Particle in Magnetic Field

§ 4. 3 Ampère??s Magnetic Force Law and Biot?Savart??s Law

§ 4. 4 Fundamental Laws of Steady Magnetic Field

§ 4. 5 Vector and Scalar Magnetic Potentials

§ 4. 6 Magnetic Dipoles

§ 4. 7 Magnetization of Magnetic Media

§ 4. 8 Fundamental Laws of Magnetic Field in Magnetic Media

§ 4. 9 Ferromagnetic Media

§ 4. 10 Boundary Conditions on Magnetic Media Interface

Chapter 5 Boundary Value Problems of Static Fields

§ 5. 1 Uniqueness theorem and Principle of Superposition

§ 5. 2 Separation of Variables of Laplace Equation

§ 5. 3 The Method of Images

§ 5. 4 Complex Analysis

§ 5. 5 Finite Difference Method

Chapter 6 Electromagnetic Induction

§ 6. 1 Faraday??s Law

§ 6. 2 Generalization of Faraday??s Law

§ 6. 3 Inductance

§ 6. 4 Energy in Magnetic Field

Chapter 7 Time Varying Electromagnetic Field

§ 7. 1 Displacement Current and Generalized Ampère??s Law

§ 7. 2 Maxwell??s Equations

§ 7. 3 Time Harmonic Electromagnetic Field

§ 7. 4 Dispersion and Loss

§ 7. 5 Poynting??s Theorem

§ 7. 6 Wave Equation of Electromagnetic Field

§ 7. 7 Scalar and Vector Potential

§ 7. 8 Boundary Condition of Time Varying EM Field

Chapter 8 Plane Wave

§ 8. 1 General Solution of Helmholtz Equation

§ 8. 2 Uniform Plane Wave in Ideal Media

§ 8. 3 Polarization of Electromagnetic Wave

§ 8. 4 Uniform Plane Wave in Conductive Media

§ 8. 5 Phase Velocity and Group Velocity

 § 8. 6 Reflection and Transmission of Electromagnetic Wave on Ideal Media Interface

§ 8. 7 Total Transmission and Total Reflection

§ 8. 8 Reflection and Transmission of Lossy Media Interface

§ 8. 9 Reflection and Transmission in Multilayer Media

Chapter 9 Guided Electromagnetic Wave

§ 9. 1 Electromagnetic Fields of Guided Waves

§ 9. 2 Rectangular Waveguide

§ 9. 3 TE10 Mode

§ 9. 4 Energy Transmission and Losses in Waveguide

§ 9. 5 Circular Waveguide

§ 9. 6 TEM Wave on Transmission Lines

§ 9. 7 Cavity Resonators

Chapter 10 Radiation of Electromagnetic Wave

§ 10. 1 Retarded Potential

§ 10. 2 Radiation of Hertzian Dipole

§ 10. 3 Radiation of Magnetic Dipole Antenna

§ 10. 4 Line Antennas

§ 10. 5 Directivity and Gain

§ 10. 6 Antenna Array

Electromagnetic Field Theory Fundamentals
$19.75