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Origin of Mass. Prediction of Mass from Newton-Maxwell Solution | | J.X. Zheng-Johansson
; P-I. Johansson
; | | Date: |
7 Dec 2004 | | Journal: | Related contents in "Unification of Classical, Quantum and Relativistic Mechanics and Four Forces" Vols 1,2, ISBNs:1594542600, 1594542619, Nova Sci Pub, NY, 2005, Ed JX Zheng-Johansson and P-I Johansson, Fwd Prof R Lundin | | Subject: | General Physics | physics.gen-ph | | Affiliation: | J.Z. Johansson | | Abstract: | We call as by our particle formation scheme an oscillatory charge e (or -e) together with the electromagnetic waves generated by it, of angular frequency w, as a whole a basic particle. As a direct Newton-Maxwell solution, we obtain straightforwardly for the particle’s component wavetrains, traveling at the velocity of light $c$, a translational kinetic energy eng=mc^2 and alternatively an oscillatory mechanical energy eng=hbar^*w. eng amounts but to the particle’s total energy and m its inertial mass; 2pi hbar^* is expressed by wave-medium parameters and identifiable as the Planck constant. The solutions further yield a set of semi-empirical equations for the particle’s de Broglie wave parameters. As to its origin, mc^2 represents an energy required for the particle to counterbalance a vacuum frictional force against the particle’s total motion. | | Source: | arXiv, physics/0501037 | | Services: | Forum | Review | PDF | Favorites | |
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