Abstract
In the late 90s of XX century the author proposed a concept describing an electric charge as a rotating mass. Such a description makes it possible to exclude the Coulomb quantity from the system SI and to describe all electrodynamic quantities in mechanical dimensions. According to the dimensionality, a magnetic charge is an electric charge divided by the speed of light. In the 10s of the 21st century, the authors of this article proposed a generalization of the traditional system of Maxwell’s equations in the context of a mechanical description of electromagnetic quantities. The generalized system has a solution for single charges. From these solutions, one can construct the energy and momentum of the interaction of two electrons. In this case, the electron is the unit of two principles: the electric and the magnetic. The gradient of the interaction energy gives the interaction force of the electric charges of the electrons, and the time derivative of the interaction momentum gives the interaction force of the magnetic charges of two electrons. A formal description of these forces completes the article.
Published Version
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