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 50
... radius R. ( b ) In cylindrical coordinates , a charge λ per unit length uniformly distributed over a cylindrical surface of radius b . ( c ) In cylindrical coordinates , a charge Q spread uniformly over a flat circular disc of ...
... radius R. ( b ) In cylindrical coordinates , a charge λ per unit length uniformly distributed over a cylindrical surface of radius b . ( c ) In cylindrical coordinates , a charge Q spread uniformly over a flat circular disc of ...
Page 114
... radius b with a concentric ring of charge of radius a and total charge Q. The ring of charge is located in the x - y plane , as shown in Fig . 3.11 . The charge density of the ring can be written with the help of delta functions in ...
... radius b with a concentric ring of charge of radius a and total charge Q. The ring of charge is located in the x - y plane , as shown in Fig . 3.11 . The charge density of the ring can be written with the help of delta functions in ...
Page 206
... radius a has a hole of radius b bored parallel to , and centered a distance d from , the cylinder axis ( d + b < a ) . The current density is uniform throughout the remaining metal of the cylinder and is parallel to the axis . Use ...
... radius a has a hole of radius b bored parallel to , and centered a distance d from , the cylinder axis ( d + b < a ) . The current density is uniform throughout the remaining metal of the cylinder and is parallel to the axis . Use ...
Contents
L2 The Inverse Square Law or the Mass of the Photon | 1 |
BoundaryValue Problems | 54 |
Multipoles Electrostatics | 136 |
Copyright | |
17 other sections not shown
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4-vector Ampère's law amplitude angle angular distribution angular momentum approximation atomic axis behavior boundary conditions calculate Chapter charge density charge q charged particle classical coefficients collision components conducting conductor consider coordinates cross section current density cylinder d³x defined dielectric constant diffraction dimensions dipole direction discussed electric and magnetic electric field electromagnetic fields electrons electrostatic expansion expression factor force frame frequency given Green function incident integral limit linear Lorentz transformation macroscopic magnetic field magnetic induction magnetic monopole magnitude Maxwell equations medium modes molecules motion multipole multipole expansion multipole moments nonrelativistic normal obtained oscillations parallel parameter photon Phys plane wave plasma polarization problem propagation quantum quantum-mechanical radiation radius region relativistic result scattering shown in Fig sin² solution spectrum sphere spherical surface tensor theorem transverse unit V₁ vanishes vector potential velocity volume wave guide wave number wavelength written zero ΦΩ