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Classical Electromagnetism via Relativity: An Alternative Approach to Maxwell’s Equations
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The article was published on 1968-01-01 and is currently open access. It has received 14 citations till now. The article focuses on the topics: Covariant formulation of classical electromagnetism & Classical electromagnetism and special relativity.read more
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Comments on gravitoelectromagnetism of Ummarino and Gallerati in “Superconductor in a weak static gravitational field” vs other versions
TL;DR: In this article, the Ummarino and Gallerati gravitoelectromagnetic equations in their linearized version of general relativity (GR) are shown to match with the previously reported special relativistic Maxwellian gravity equations in the non-relativistic limit and with the nonlinearized GR equations derived here, when the speed of gravity $$c_g$$ (an undetermined parameter of the theory here) is set equal to c (the speed of light in vacuum).
Journal ArticleDOI
Gravitomagnetic moments and dynamics of dirac (spin ½) fermions in flat space–time maxwellian gravity
Harihar Behera,P.C. Naik +1 more
TL;DR: In this article, a relativistically derived version of Heaviside's speculative gravity (in flat space-time) named as "Maxwellian gravity" is investigated, where the standard Dirac's approach to the intrinsic spin in the fields of Maxwellian gravity yields the gravitomagnetic moment of a Dirac (spin ½) particle exactly equal to its intrinsic spin.
Posted ContentDOI
Updating Maxwell with Electrons, Charge, and More Realistic Polarization
TL;DR: Maxwell's equations describe the relation of charge and electric force almost perfectly even though electrons and permanent charge were not in his equations, as he wrote them as mentioned in this paper, which confirms the legitimacy of electrodynamics.
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Modelling and Validation of Electret-Based Vibration Energy Harvesters in View of Charge Migration
TL;DR: In this paper, a unified analytical model of the eVEH is derived based on the above analysis, and the dynamic response and voltage output predicted by this model are verified numerically by the equivalent circuit simulation and experimentally with an out-of-plane EVEH prototype.
Posted Content
Electrodynamics Correlates Knock-on and Knock-off: Current is Spatially Uniform in Ion Channels.
TL;DR: The electrodynamics of charge guarantee strong correlations between the movements of ions on all time scales, even those of atomic scale thermal motion, so they are present in individual trajectories, not just averages.