电磁学（英文影印版）

.3.10 chapter summary
4 electrostatics and conductors
4.1 electrostatic properties of conductors
4.2 electrostatic problems with rectangular symmetry
4.3 problems with spherical symmetry
4.4 problems with cylindrical symmetry
5 general methods for laplace's equation
5.1 separation of variables for cartesian coordinates
5.2 separation of variables for spherical polar coordinates
5.3 separation of variables for cylindrical coordinates
5.4 conjugate functions in 2 dimensions
5.5 iterative relaxation: a numerical method
6 electrostatics and dielectrics
6.1 the atom as an electric dipole
6.2 polarization and bound charge
6.3 the displacement field
6.4 dielectric material in a capacitor
6.5 boundary value problems with dielectrics
7 electric currents
7.1 electric current in a wire
7.2 current density and the continuity equation
7.3 current and resistance
7.4 a classical model of conductivity
7.5 joule's law
7.6 decay of a charge density fluctuation
7.7 i-v characteristic of a vacuum-tube diode
7.8 chapter summary
8 magnetostatics
8.1 the magnetic force and the magnetic field
8.2 applications of the magnetic force
8.3 electric current as a source of magnetic field
8.4 ampere's law
8.5 the vector potential
8.6 the magnetic dipole
8.7 the full field of a current loop
9 magnetic fields and matter
9.1 the atom as a magnetic dipole
9.2 magnetization and bound currents
9.3 ampere's law for free currents, and h
9.4 problems involving free currents and magnetic materials
9.5 a magnetic body in an external field: the magnetic scalar potential
9.6 ferromagnetism
10 electromagnetic induction
10.1 motional emf 356
10.2 faraday's law of electromagnetic induction
10.3 applications of faraday's law
10.4 mutual inductance 37
10.5 magnetic field energy
11 the maxwell equations
11.1 the maxwell equations in vacuum and the displacement current
11.2 scalar and vector potentials
11.3 the maxwell equations in matter
11.4 energy and momentum of electromagnetic fields
11.5 electromagnetic waves in vacuum
12 electromagnetism and relativity
12.1 coordinate transformations
12.2 minkowski space
12.3 electromagnetism in covariant form
12.4 field transformations
12.5 fields due to a point charge in uniform motion
12.6 magnetism rom relativity
12.7 the energy-momentum flux tensor
13 electromagnetism and optics
13.1 electromagnetic waves in a dielectric
13.2 reflection and refraction at a dielectric interface
13.3 electromagnetic waves in a conductor
13.4 a classical model of dispersion: the frequency dependence of
material properties
14 wave guides and transmission lines
14.1 electromagnetic waves between parallel conducting planes
14.2 the rectangular wave guide
14.3 wave guide of arbitrary shape
14.4 the tem mode of a coaxial cable
14.5 cavity resonance
15 radiation of electromagnetic waves
15.1 the retarded potentials
15.2 radiation from an electric dipole
15.3 the half-wave linear antenna
15.4 the larmor formula: radiation from a point charge
15.5 classical electron theory of light scattering
15.6 complete fields of a point charge: the lidnard-wiechert potentials
a electric and magnetic units
b the helmholtz theorem
index