Electrodynamics from Ampère to EinsteinOUP Oxford, 26/06/2003 - 532 من الصفحات Three quarters of a century elapsed between Ampere's definition of electrodynamics and Einstein's reform of the concepts of space and time. The two events occurred in utterly different worlds: the French Academy of Sciences of the 1820s seems very remote from the Bern Patent Office of the early 1900s, and the forces between two electric currents quite foreign to the optical synchronization of clocks. Yet Ampere's electrodynamics and Einstein's relativity are firmly connected through a historical chain involving German extensions of Ampere's work, competition with British field conceptions, Dutch synthesis, and fin de siecle criticism of the aether-matter connection. Olivier Darrigol retraces this intriguing evolution, with a physicist's attention to conceptual and instrumental developments, and with a historian's awareness of their cultural and material embeddings. This book exploits a wide range of sources, and incorporates the many important insights of other scholars. Thorough accounts are given of crucial episodes such as Faraday's redefinition of charge and current, the genesis of Maxwell's field equations, and Hertz's experiments on fast electric oscillations. Thus there emerges a vivid picture of the intellectual and instrumental variety of nineteenth-century physics. The most influential investigators worked at the crossroads between different disciplines and traditions: they did not separate theory from experiment, they frequently drew on competing traditions, and their scientific interests extended beyond physics into chemistry, mathematics, physiology, and other areas. By bringing out these important features, this book offers a tightly connected and yet sharply contrasted view of early electrodynamics. Olivier Darrigol is a Research Director at the Centre National de la Recherche Scientifique, Paris. His research focuses on the history of quantum theory and of electrodynamics. |
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عبارات ومصطلحات مألوفة
action Ampère Ampère's Ampère's law Amperean analogy atoms Buchwald 1985a cathode rays circuit Cohn coil concept conduction conductor connected corresponding current elements Darrigol depended derived diamagnetic dielectric discharge displacement displacement current dynamical effect Einstein elastic elec electric and magnetic electric charge electric current electric force electrodynamics electrolytic electromagnetic induction electromotive force electron electrostatic energy ether experimental experiments Faraday Faraday effect Faraday's field equations FitzGerald fluid flux force acting Gauss Heaviside Helmholtz Hertz Hittorf implied ions J. J. Thomson Kirchhoff Lagrangian Larmor lines of force Lorentz macroscopic magnetic field magnetic force mathematical matter Maxwell Maxwell's equations Maxwell's theory Maxwellian measured mechanical medium molecular molecules motion moving bodies needle Neumann Ohm's law optical oscillator particles phenomena physicists physics Poincaré polarization pole potential propagation relativity principle result rotation Smith and Wise surface theoretical tion tubes vacuum vector vortex vortices waves Weber Whittaker 1951 Wiedemann wire