Difference between revisions of "Aberration and the Electric Force on a Moving Charged Particle"

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==Abstract==
 
==Abstract==
  
The possibility that the electric force on a charge particle moving through a static electric field acts at the optical aberration angle instead of parallel to the electric field is investigated. Simple reasoning leads to the conclusion that if the force does act at the aberration angle, then the Lorentz force equation must be modified to include a force component acting in the opposite direction of the particle velocity. Such a force component is proposed in this paper. The effect of this additional component is calculated and is found to be large enough to be observed in the laboratory with a low-energy experiment.[[Category:Scientific Paper]]
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The possibility that the electric force on a charge particle moving through a static electric field acts at the optical aberration angle instead of parallel to the electric field is investigated. Simple reasoning leads to the conclusion that if the force does act at the aberration angle, then the Lorentz force equation must be modified to include a force component acting in the opposite direction of the particle velocity. Such a force component is proposed in this paper. The effect of this additional component is calculated and is found to be large enough to be observed in the laboratory with a low-energy experiment.
  
[[Category:New Energy]]
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[[Category:Scientific Paper|aberration electric force moving charged particle]]
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[[Category:New Energy|aberration electric force moving charged particle]]

Latest revision as of 19:13, 1 January 2017

Scientific Paper
Title Aberration and the Electric Force on a Moving Charged Particle
Author(s) David M Drury
Keywords electric force, moving charged particle, aberration angle. particle velocity
Published 1991
Journal Galilean Electrodynamics
Volume 2
Number 1
Pages 13-22

Abstract

The possibility that the electric force on a charge particle moving through a static electric field acts at the optical aberration angle instead of parallel to the electric field is investigated. Simple reasoning leads to the conclusion that if the force does act at the aberration angle, then the Lorentz force equation must be modified to include a force component acting in the opposite direction of the particle velocity. Such a force component is proposed in this paper. The effect of this additional component is calculated and is found to be large enough to be observed in the laboratory with a low-energy experiment.