Difference between revisions of "Aberration of Electric Field and Velocity of Transmission of an Electrical Force"
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Revision as of 11:34, 30 December 2016
Scientific Paper | |
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Title | Aberration of Electric Field and Velocity of Transmission of an Electrical Force |
Author(s) | Musa D Abdullahi |
Keywords | {{{keywords}}} |
Published | 2016 |
Abstract
An electron of mass m and charge -e moving at angle theta to the accelerating force due to an electric field of intensity E, is subject to aberration of electric field as a result of relativity of velocity (c-v) between the electrical force, transmitted with velocity of light c and the electron moving with velocity v at time t. The accelerating force m(dv/dt) is less than the electrostatic force –eE, the difference being the radiation reaction force. Motion of the electron with constant mass and its radiation power are treated under acceleration with theta=0 or deceleration with theta=\\pi radians or at constant speed v, in a circle of radius r, with theta=pi/2 radians. It is shown that circular revolution of an electron round a central force of attraction is without radiation and stable, contrary to classical and relativistic electrodynamics.