Classical electrodynamicsThis edition refines and improves the first edition. It treats the present experimental limits on the mass of photon and the status of linear superposition, and introduces many other innovations. 
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Page 412
In such interactions it is convenient to think of the incident (radiation) fields as
inducing electric and magnetic multipoles that oscillate in definite phase
relationship with the incident wave and radiate energy in directions other than the
direction ...
In such interactions it is convenient to think of the incident (radiation) fields as
inducing electric and magnetic multipoles that oscillate in definite phase
relationship with the incident wave and radiate energy in directions other than the
direction ...
Page 475
The surfaces move with velocities Vi and V2, respectively, in the x direction. A
uniform magnetic field B0 acts in the z direction. The system is infinite in the x and
y directions. We will look for a steadystate solution for flow in the x direction in ...
The surfaces move with velocities Vi and V2, respectively, in the x direction. A
uniform magnetic field B0 acts in the z direction. The system is infinite in the x and
y directions. We will look for a steadystate solution for flow in the x direction in ...
Page 705
In collision problems it is usual that the direction of the incident particle is known
and the direction of the radiation is known, but the deflected particle's direction,
and consequently that of Ap, are not known. Consequently the plane containing ...
In collision problems it is usual that the direction of the incident particle is known
and the direction of the radiation is known, but the deflected particle's direction,
and consequently that of Ap, are not known. Consequently the plane containing ...
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Contents
Introduction and Survey  1 
Introduction to Electrostatics  27 
BoundaryValue Problems  54 
Copyright  
18 other sections not shown
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4vector amplitude angle angular distribution angular momentum aperture approximation assumed atomic axis behavior Bessel functions boundary conditions bremsstrahlung calculation Chapter charge density charge q charged particle classical coefficients collision components conductor consider coordinates cross section current density cylinder defined dielectric constant differential diffraction dimensions dipole direction discussed effects electric and magnetic electric field electromagnetic fields electrons electrostatic energy loss expansion expression factor finite force frequency given Green function incident integral Lagrangian limit linear Lorentz transformation macroscopic magnetic field magnetic induction magnitude Maxwell equations medium modes molecules multipole multipole expansion multipole moments nonrelativistic normal obtain oscillations parallel parameter photon Phys plane wave plasma point charge polarization problem propagation quantum quantummechanical radius region relativistic resonant rest frame result scalar scalar potential scattering shown in Fig solution spectrum sphere spherical surface tensor theorem transverse unit vanishes vector potential velocity wave guide wave number wavelength written zero