Classical Physics


Redefining the Electron (Part 1): The Implications for Electricity

Authors: David Johnson

By redefining the electron to be a toroidal form of concentrated energy rather than a monopole point-charge definition, such as used for the orbital nuclear atomic model of the Standard Model and Quantum Mechanics, the dynamic nature of electromagnetic fields and electricity become more logical and consistent, and easier to explain. Redefining the Electron (Part 1) addresses the nature of electric and magnetic fields, electrons, positrons, electric current generation from battery and induction sources, capacitor charge and discharge, and superconductivity. The second paper of the three part series explores the implications for atomic structure and chemistry, the role of electrons and positrons within matter, and beta and electron capture radiation. The third and final paper provides insight into the particle-wave nature of EMR and provides alternative explanations for spectral line emission and absorption, the photo-electric effect, the Compton effect, electron pair generation and annihilation, and Gravity.

Comments: First of series of 3 related articles spanning 77 pages and including 73 diagrams

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Submission history

[v1] 2019-01-23 09:31:13
[v2] 2019-04-11 22:40:15

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