Electromagnetics: A Discussion of Fundamentals |
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aether algebraic apply argument assume assumption atomic body called circuit conductor constant Coulomb's law curl curl H deduced denote dielectric dimensions displacement doublet Einstein elastic electric electric charge electrodynamic electromagnetic electromagnetic mass electron theory electrostatic elementary elst energy experiments expression F₁ fact flux force force-formula formula four-vector fundamental gives Hence hypothesis induction integral J. J. Thomson laboratory length Liénard's Lorentz magnetic field mass mathematical Maxwell Maxwell's equations means measure measure-ratio medium merely momentum motion moving charges observer obtain ordinary particles phenomena physical physicists point-charges polarisation Poynting's theorem principle of relativity proof propagation proved quantity radiation ratio regarded relativists result Ritz Ritz's rotating sin² space stationary supposed surface term text-books theorem theory of relativity tion units vector potential velocity Voigt's transformation zero дх