## Electrodynamics of Continuous MediaCovers the theory of electromagnetic fields in matter, and the theory of macroscopic electric and magnetic properties of matter. There is a considerable amount of new material particularly on the theory of the magnetic properties of matter and the theory of optical phenomena with new chapters on spatial dispersion and non-linear optics. |

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Page 7

For example, if a charge e is at a

conducting sphere with radius a ( < r), then <ff>'0 = <p'aa/r, and the charge

induced on the sphere is ea = —ea/r. As a second example, let us consider a

charge e placed ...

For example, if a charge e is at a

**distance**r from the centre of an earthedconducting sphere with radius a ( < r), then <ff>'0 = <p'aa/r, and the charge

induced on the sphere is ea = —ea/r. As a second example, let us consider a

charge e placed ...

Page 8

r ' 2nb , where r is the

element d/ of the axis of the wire, the integration being over all such elements.

We divide the integral into two parts corresponding to r < A and r > A, A being a

r ' 2nb , where r is the

**distance**from a point on the surface of the ring to anelement d/ of the axis of the wire, the integration being over all such elements.

We divide the integral into two parts corresponding to r < A and r > A, A being a

**distance**...Page 32

A small conductor with capacitance c (equal in order or magnitude to its

dimension) is at a

radius a (▻ c). The

is ...

A small conductor with capacitance c (equal in order or magnitude to its

dimension) is at a

**distance**r from the centre of a spherical conductor with largeradius a (▻ c). The

**distance**r - a f rom the conductor to the surface of the sphereis ...

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### Contents

ELECTROSTATICS OF CONDUCTORS 51 The electrostatic field of conductors | 1 |

2 The energy of the electrostatic field of conductors | 3 |

3 Methods of solving problems in electrostatics | 9 |

Copyright | |

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absorption amplitude angle anisotropy antiferromagnetic atoms averaging axes axis body boundary conditions calculation charge Cherenkov radiation coefficient components conductor constant coordinates corresponding cos2 cross-section crystal Curie point curl H denote density dependence derived determined dielectric diffraction direction discontinuity dissipation distance e(co effect electric field electron ellipsoid equation expression external field factor ferroelectric ferromagnet fluctuations fluid formula Fourier free energy frequency function given gives grad Hence incident wave induction integral intensity isotropic Laplace's equation linear macroscopic magnetic field magnitude Maxwell's equations medium monochromatic non-linear normal obtain optical particle permittivity perpendicular perturbation phase plane polarization Problem propagated properties pyroelectric quantities radiation refraction relation respect result rotation satisfied scalar scattering solution spatial dispersion sphere Substituting suffixes superconducting surface symmetry temperature tensor theory thermodynamic potential transition uniaxial upper half-plane values variable velocity wave vector waveguide z-axis zero