## Electrodynamics of Continuous Media |

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Page 160

tends to increase the thickness of the

less rapidly). The anisotropy energy has the opposite effect, because any

deviation of M from the direction of easy magnetisation increases this energy. We

take the ...

tends to increase the thickness of the

**layer**(i.e. to make the direction of M varyless rapidly). The anisotropy energy has the opposite effect, because any

deviation of M from the direction of easy magnetisation increases this energy. We

take the ...

Page 184

Lev Davidovich Landau, Evgeniĭ Mikhaĭlovich Lifshit͡s. The shape of the

i.e. the shape of the limiting line of force, is obtained by integrating the relation d2

= -dwsm over real {: 2 = ...

Lev Davidovich Landau, Evgeniĭ Mikhaĭlovich Lifshit͡s. The shape of the

**layer**,i.e. the shape of the limiting line of force, is obtained by integrating the relation d2

= -dwsm over real {: 2 = ...

Page 278

A plane-parallel

arbitrary medium (region 3). Light polarised parallel or perpendicular to the plane

of 2 If regions 2 and 3 are transparent, then h, r12. incidence falls on the

from the ...

A plane-parallel

**layer**(region 2) lies between a vacuum (region 1) and anarbitrary medium (region 3). Light polarised parallel or perpendicular to the plane

of 2 If regions 2 and 3 are transparent, then h, r12. incidence falls on the

**layer**from the ...

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### Contents

Methods of solving problems in electrostatics | 9 |

A conducting ellipsoid | 20 |

The forces on a conductor | 31 |

Copyright | |

54 other sections not shown

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### Common terms and phrases

angle anisotropy atoms averaging axes axis body boundary condition calculated charge circuit co-ordinates coefficient components conducting conductor constant corresponding cross-section crystal Curie point curl H current density cylinder denote depends derivative determined dielectric permeability difference differentiating diffraction dipole direction discontinuity distance effect electric field electromagnetic electrons electrostatic ellipsoid entropy equation div expression external field ferroelectric ferromagnetic fluid flux force formula free energy frequency function given gives grad Hence induction integral isotropic Laplace's equation layer Let us consider linear macroscopic magnetic field magnetic moment magnetisation magnitude Maxwell's equations medium metal normal obtain optical particle perpendicular phase piezoelectric plane polarisation PROBLEM propagation properties pyroelectric quantities radius refraction relation respect result rotation scalar scattering self-inductance ſº solution sphere suffixes superconducting surface symmetry tangential temperature theory thermodynamic potential tion uniform unit volume values variable velocity wave vector wire z-axis zero