电磁学和场的计算 第2版 英文版
作者：Nathan Ida，Joao P.A.Bastos著
出版时间： 1999年版
内容简介
　　这是一本电子工程专业的教材。本书强调场的计算以及理论关系的发展。全书分两部分，第一部分从各种不同的应用与基本关系联系起来的角度表述电磁场和麦克斯韦方程，第二部分给出了计算的方法。
目　　录
Preface
PartⅠ.The Electromagnetic Field and Maxwell's Equations
　1. Mathematical Preliminaries
　　1.1. Introduction
　　1.2. The Vector Notation
　　1.3. Vector Derivation
　　　1.3.1. The Nabla (V) Operator
　　　1.3.2. DefinitionoftheGradient, Div rgence, and Curl
　　1.4. TheGradient
　　　1.4.1. Example of Gradient
　　1.5. The Divergence
　　　1.5.1. Defmition of Flux
　　　1.5.2. The Divergence Theorem
　　　1.5.3. Conservative Flux
　　　1.5.4. Example of Divergence
　　1.6. TheCurl
　　　1.6.1. Circulation of a Vector
　　　1.6.2. Stokes'Theorem
　　　1.6.3. Example of Curl
　　1.7. Second Order Operators
　　1.8. Application of Operators to More than One Function
　　1.9. Expressions in Cylindrical and Spherical Coordinates
　2. The Electromagnetic Field and Maxwell's Equations
　　2.1. Introduction
　　2.2. Maxwell's Equations
　　　2.2.1. Fundamental Physical Principles ofthe Electromagnetic Pield
　　　2.2.2. Point Form of the Equations
　　　2.2.3. The Equations in Vacuum
　　　2.2.4. The Equations in Media with and
　　　2.2.5. The Equations in General Media
　　　2.2.6. The Integral Form ofMaxwell's Equations
　　2.3. Approximations to Maxwell's Equations
　　2.4. Units
　3 Electrostatic Fields
　　3.1. Introduction
　　3.2. The Electrostatic Charge
　　　3.2.1. The Electric Field
　　　3.2.2. Force on an Electric Charge
　　　3.2.3. The Electric Scalar Potential V
　　3.3. Nonconservative Fields: Electromotive Force
　　3.4. RefractionoftheElectricField
　　3.5. Dielectric Strength
　　3.6. The Capacitor
　　　3.6.1. Defmition of Capacitance
　　　3.6.2. Energy Stored in a Capacitor
　　　3.6.3. Energy in a Static, Conservative Fie 1
　　3.7. Laplace's and Poisson's Equations in Tem of the Electric Field
　　3.8. Examples
　　　3.8.1. The Infmite Charged Line
　　　3.8.2. The Charged Spherical Half-Shell
　　　3.8.3. The Spherical Capacitor
　　　3.8.4. The Spherical Capacitor with Two Dielectric Layers
　　3.9. A Brief Introduction to the Finite Element Method: Solution of the Two-Dimensional Laplace Equation
　　　3.9.1. The Finite Element Technique for Division of a Domain
　　　3.9.2. The Variational Method
　　　3.9.3. A Finite Element Program
　　　3.9.4. Example for Use of the Finite Element Program
　　3.10. Tables of Permittivities, Dielectric Strength, and Conductivities
　4. Magnetostatic Fields
　　4.1. Introduction
　　4.2. Maxwell's Equations in Magnetostatics
　　　4.2.1. The Equation
　　　4.2.2. The Equation
　　　4.2.3. The Equation
……
　5. Magnetodynamic Fields
　6. Interaction between Electromagnetic and Mechanical Forces
　7. Wave Propagation and High-Frequency Electromagnetic Fields
PartⅡ.Introduction to the Finite Element Method in Electromagnetics
　8. Introduction to the Finite Element Method
　9. The Variational Finite Element Method:Some Static Applications
　10. Galerkin's Residual Method: Applications to Dynamic Fields
　11. Hexahedral Edge Elements - Some 3D Applications
　12. Computational Aspects in Finite Element
　13. General Organization of Field Computation Software
Bibliography
Subject Index