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Journal article
Electrodynamics and the Mass-Energy Equivalence Principle
Physics Essays: An International Journal Dedicated to Fundamental Questions in Physics, Vol.19(3), pp.305-313
07/16/2009
Abstract
In this paper we investigate the link between classical electrodynamics and the mass-energy equivalence principle, in view of the conclusions reached in ref.[1]. A formula for the radius of a charged particle is derived. The formula predicts the radius of the proton correctly. The radius of the electron turns out to be a surprising quantity that solves the existing problems of electrodynamics, particularly the problem of the infinite self-force of the electron. In addition, the classical radius of the electron (2.82fm) will prove to be not a "radius", but rather the mean distance through which the retarded potentials of the self-force act. An important conclusion is that there is no deficiency in the classical Abraham-Lorentz model of the self-force, but rather the problem lies with our intuitive understanding of what an elementary particle is. Other important conclusions are also discussed, including a physically sound explanation for why electric charges must be quantized (as opposed to Dirac's monopole theory).
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Details
- Title
- Electrodynamics and the Mass-Energy Equivalence Principle
- Publication Details
- Physics Essays: An International Journal Dedicated to Fundamental Questions in Physics, Vol.19(3), pp.305-313
- Resource Type
- Journal article
- Publisher
- Physics Essays Publication; Ithaca
- Copyright
- © Physics Essays Publication 2006
- Identifiers
- 99380175952206600
- Academic Unit
- Hal Marcus College of Science and Engineering ; Dr. Muhammad Harunur Rashid Department of Electrical and Computer Engineering
- Language
- English