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Preface to the Second EditionPreface to the First EditionMain Character£¬ Parameters and The Expressions of Gradient£¬ Divergence£¬RotationChapter 1 Vector Analysis1£®1 Scalar and Vector Fields1£®2 Operation of Vector1£®3 Flux and Divergence of Vector1£®4 Gauss's Theorem1£®5 Vector Circulation and Rotation1£®6 Stockes' Theorem1£®7 Gradient of a Scalar Field1£®8 The Helmholtz TheoremExercisesChapter 2 Electrostatic Fields2£®1 Electrostatic Field's Divergence Equation and Rotation Equation2£®2 Electric Potential and Electric Potential Gradient2£®3 Laplace's equation and Poisson's equation2£®4 Electric Dipole2£®5 Conductors in the Electrostatic Field2£®6 Dielectrics in the Electrostatic Field2£®7 The Boundary Conditions of the Electrostatic Field2£®8 Capacitance of Conductor System2£®9 Energy of Electrostatic Field and Electrostatic Force2£®10 8 Function and Its Related PropertiesExercisesChapter 3 Constant Magnetic Field3£®1 The Curl Equation and Divergence Equation of Constant Magnetic Field3£®2 Magnetic Vector Potential A and Scalar Magnetic Potential cp3£®3 Magnetic Dipole3£®4 Medium in Constant Magnetic Field3£®5 Boundary Condition of Constant Magnetic Field3£®6 Self Inductance and Mutual Inductance3£®7 Magnetic Energy and Magnetic ForceExercisesChapter 4 Steady Electric Field4£®1 Current Density4£®2 Current Continuity Equation4£®3 Steady Electric Fields are Irrotational Fields4£®4 Loss of Energy in A Conducting Medium4£®5 Boundary Condition of the Steady Electric Field4£®6 Analogy of the Steady Electric Field and the Electrostatic Field4£®7 Capacitor Considering the Loss of MediumExercisesChapter 5 Solutions of Electrostatic Field Boundary Value Problem5£®1 Electrostatic Field Boundary Value Problems5£®2 Uniqueness Theorem5£®3 Solving the One-Dimension Field by Integral5£®4 Using Separation of Variables to Solve Two-Dimension and Three-Dimension Laplace's Equation5£®5 Image Method5£®6 Conformal Transformation£¬ or Called Conformal Mapping '5£®7 Finite-Difference Method-Numerical Computation Methods5£®8 Green's Function and Green's First£¬ Second IdentitiesExercisesChapter 6 Alternating Electromagnetic Fields6£®1 Maxwell's Equations6£®2 Law of Induction and Maxwell's Second Equation6£®3 Ampere's Circuital Law and Maxwell's First Equation6£®4 Gauss's Law and Maxwell's Third Equation6£®5 Maxwell's Fourth Equation6£®6 Maxwell's Equations and Auxiliary Equations6£®7 Complex Format of Maxwell's Equations6£®8 Boundary Conditions for Alternating Fields6£®9 Poynting's Theorem and Poynting Vector6£®10 Potentials and Fields for Alternating Fields6£®11 On Lorentz GaugeExercisesChapter 7 Propagation of Plane Wave in Infinite Medium7£®1 Wave Equations and Solutions7£®2 Plane Wave in Perfect Dielectric7£®3 Polarization of Electromagnetic Wave7£®4 Plane Wave in A Conducting Medium7£®5 Loss Tangent tan and Medium Category7£®6 Plane Wave in A Good Dielectric7£®7 Plane Wave in A Good Conductor7£®8 Skin Effect7£®9 Surface Impedance Zs of A Good Conductor7£®10 Power Loss in A Conducting Medium7£®11 Dispersive Medium£¬ Dispersive Distortion and Normal Dispersion£¬ Anomalous Dispersion7£®12 Electromagnetic Waves in Ferrite MediumExercisesChapter 8 Reflection and Refraction of Electromagnetic Waves8£®1 Plane Wave Normally Incident on the Surface of Perfect Conductor8£®2 Plane Wave Normally Incident on the Interface between Perfect Dielectrics8£®3 Plane Waves Obliquely Incident upon the Surface of Perfect Conductor8£®4 Plane Wave Obliquely Incident upon the Interface between PerfectDielectrics8£®5 Reflection and Refraction of Waves on the Interface between ConductiveMedia8£®6 Plane Waves Normally Incident upon the Interfaces among Multi-layered Media8£®7 On the Multiformity of the Definitions of Fresnel Equations £¨R£¬T£©ExercisesChapter 9 Two-Conductor Transmission Lines-Transverse Electromagnetic Wave Guiding System9£®1 Introduction9£®2 Properties of Wave Equations for TEM Waves9£®3 Parallel-Plate Transmission System9£®4 Two-Wire Transmission Lines9£®5 Coaxial Cable9£®6 Quasi-TEM Waves in Lossy Transmission LinesExercisesChapter 10 TE and TM Modes Transmission System-Waveguide10£®1 Rectangular Waveguide10£®2 Circular Waveguide10£®3 Higher Modes in Coaxial LineExercisesChapter 11 Electromagnetic Radiation11£®1 Lag Potential of Alternating Field11£®2 Electric Dipole11£®3 The Magnetic Dipole'11£®4 Dipole Antenna and the Concept of Antenna Array11£®5 DualityTheoryExercisesReferencesAppendix Common FormulaAnswer