Essays On The Formal Aspects Of Electromagnetic TheoryAkhlesh Lakhtakia World Scientific, 30. jún. 1993 - 812 síður The book deals with formal aspects of electromagnetic theory from the classical, the semiclassical and the quantum viewpoints in essays written by internationally distinguished scholars from several countries. The fundamental basis of electromagnetic theory is examined in order to elucidate Maxwell's equations, identify problematic aspects as well as outstanding problems, suggest ways and means of overcoming the obstacles, and review existing literature.This book will be especially valuable for those who wish to go in depth, rather than simply use Maxwell's equations for the solution of engineering problems. Graduate students will find it rich in dissertation topics, and advanced researchers will relish the controversial and detailed arguments and models. |
Efni
8 | |
16 | |
25 | |
Theoretical Reasons for Questioning the Completeness of Maxwells Theory | 49 |
Electromagnetic transients not explained by Maxwells equations | 87 |
fields Drifting ions | 228 |
field | 533 |
Three applications of information theory | 559 |
Scalar potential formulations for magnetic field problems | 591 |
Variational principles and natural boundary conditions | 625 |
Universal boundary conditions and Cauchy data for | 657 |
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according applied approach arbitrary assumed atomic boundary conditions calculation charge classical Compat components consider constant corresponding defined definition density dependence derived described determined dipole direction discussed distribution effect electric electrodynamics electromagnetic field electron energy equal example existence experiment expression field strength force force-free formulation frame frequency function gauge given gives independent initial integral interaction interpretation invariant Lett Lorentz magnetic field mathematical Maxwell Maxwell's equations means measure mechanics medium method monopole motion moving nature Note observed obtained operator oscillations particle phase Phys physical polarization position possible potential present problem produce propagation quantity quantum quantum mechanics radiation region relation represented respect result satisfy scalar shown shows solution space sphere standing surface symmetry term theorem theory tion transformation vacuum values variation vector volume wave zero