Electrodynamics

Front Jacket
Front Cover
Title Page
CONTENTS
PREFACE TO THE RUSSIAN EDITION
PREFACE TO THE ENGLISH EDITION
NOTATION
1. THE BASICS OF MAXWELL\'S ELECTRODYNAMICS
	1. The Maxwell equations. Electromagnetic Units
	2. The potentials of the eledromagnetlc field. Gauge Invariance. Hertz vectors
	3. Laws governing the variation of energy, momentum, and angular momentum
	4. Properties of the Maxwell equations. Uniqueness of the solution In bounded regions. Boundary conditions at the Interface between two media.
2. RELATIVISTIC ELECTRODYNAMICS
	5. The principle of relativity. Lorentz transformations, and relativistic kinematics
	6. Relativistic particle dynamics
	7. The relativistic Maxwell equations. The field strength transformations
	8. Relativistic equations of charge motion
	9. Variational principle for electromagnetic field
	10. The Noether theorem. Relativistic diHerential and integral conservation laws for eledromagnetlc fields
3. STATIC FIELDS. SOLUTION OF THE WAVE EQUATION. RADIATION FIELD
	11. Electrostatic field
	12. Magnetostatic field generated by currents
	13. Solution of the nonhomogeneous wave equation. The Lienard-Wiechert potentials
	14. Field strength around a polntHke charge. Radiation field. Uniform linear molion of a charge
	15. Relativistic law of energy-momentum conservation for the electromagnetic field of a pointlike chargeof a pointlike charge
	16. Energy radiated by a moving charge
	17. Emission from bounded oscillating sources
4. PROPERTIES OF RADIATION IN ISOTROPIC MEDIA
	18. Plane waves. Reflection and refraction. Interference
	19. Relativistic transformations of plane waves
	20. Huygens principle. Fundamentals of the theory of diffraction
	21. Geometrical optics approximation
	22. Fundamentals of radiation thermodynamics
5. THE LORENTZ-DIRAC EQUATION. SCATTERING AND ABSORPTION OF ELECTROMAGNETIC FIELD
	23. The Lorentz-Dirac equation. Radiative reaction
	24. Renormalization of mass. Hyperbolic motion of charge
	25. Spectrum. composition of radiation emitted by an oscillator. Scattering and absorption of radiation
6. MOTION OF CHARGED PARTICLES IN ELECTROMAGNETIC FIELDS. SYSTEMS OF INTERACTING CHARGES
	26. Integration of the equations of motion
	27. Theory of drift in nonuniform elemomagnetic fields
	28. Systems of interacting particles
7. CONTINUOUS MEDIA IN ELECTRIC FIELD
	29. Introduction to electrodynamics of continuous media
	3D. Ideal condudors in eledrostaflc field
	31. Dielectrics in eledrostatlc field. Isotropic dieledrics
	32. Anisotropic dielectrics
8. ELECTRIC CURRENT. MAGNETIC FIELD IN CONTINUOUS MEDIA
	33. Magnetic energy and forces in a system of direct-current loops. Quasistationary currents in linear circuits
	34. Eddy currents. Thermoeledric and thermomagnetic phenomena. Hall effect
	35. Elements of magnetohydrodynamics
	36. Elementary properties of ferromagnetlcs
	37. Phenomenological description of superconductivity
9. ALTERNATING ELECTROMAGNETIC FIELD IN CONTINUOUS MEDIA
	38. Electromagnetic waves in conductors. Waveguide and cavity
	39. Dispenlon of electromagnetic field in the medium. Waves In anisotropic media
	40. Waves in magnetohydrodynamics
	41. Fundamentals of nonllnear optics
Appendix
	A. Basic formulas of tensor analysis
	B. Vector analysis in three-dimensional Euclidean space
	c. Basic formulas for delta fundlon and Its derivatives
	D. Integration over hypenurfaces in Minkowski Space
	E. Application of the Fourier transform to wave equations
NAME INDEX
SUBJECT INDEX
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