American Research Journal of Physics       cover
Open Access

American Research Journal of Physics

ISSN (Online): 2380-5714

DOI: 10.46568/arjps

Research Article Vol. 3, Issue 1 2017 Open Access

Faraday’s Iron Ring Experiment (1831) Explained with Gill’s Electronic Theory of Magnetism (1964)

Avtar Singh Gill 

Citation: Avtar Singh Gill. “Faraday’s Iron Ring Experiment (1831) Explained with Gill’s Electronic Theory of Magnetism (1964)”, American Research Journal of Physics, vol 3, no. 1, 2017, pp. 1-17.
Abstract
Abstract: Gill’s electronic theory of magnetism (1964) was put forward by the author to explain a change in configuration of the atoms which then start to behave like magnets. The author does not agree with the pre-existing dipole theory of Maxwell (1873). By applying Gill’s electronic theory of magnetism (1964) to Faraday’s (1831) iron ring experiment, the unexpected result obtained by Michael Faraday in 1831will be explained. Using Coulomb’s law, dot-product calculations and equations have been developed by the author versus the cross-product Lorentz equations (1893). Magnetism and the Tesla unit will be addressed, and it will be shown with the help of Coulomb’s law that if we have ???? = ???? ????. ???? =(????. ????) ⁻¹ non-moving inner electrons at the north magnetic pole and have at a distance of one meter the same number of exposed protons as the south magnetic pole, then we will experience a magnetic force of one Tesla between the two magnetic poles. The issue of asymmetry between magnetic force and electrical force pointed out by A. Einstein in 1905 and Richard Feynman in 1943 is resolved by applying Gill’s electronic theory of magnetism (1964) instead of Maxwell’s dipole theory of magnetism (1873). Introduction: This article has been written to explain the results obtained by Michael Faraday in his 1831 iron ring experiment with the application of Gill’s electronic theory of magnetism (1964). The ability to do the same also lends support to Gill’s electronic theory of magnetism. It will be shown with line diagrams and a simple experiment that the magnetic force is a combination of positive and negative forces from the protons and electrons of a re-configured magnetized atom. The author will go on to derive dot product calculations and equations after having failed to reconcile with the cross-product Lorentz formula of 1893. The derived equations are applied to define and calculate a Tesla unit. Maxwell’s dipole theory of magnetism (1873) causes the asymmetry issue, and it will be shown that Gill’s electronic theory of magnetism resolves the asymmetry issue.