dorsal/arxiv
View SchemaGravity between Internally Electrodynamic Particles
| Authors | J. X. Zheng-Johansson, P-I. Johansson |
|---|---|
| Categories | |
| ArXiv ID | physics/0411245 |
| URL | https://arxiv.org/abs/physics/0411245 |
| Journal | Quantum Theory and Symmetries IV, ed. V.K. Dobrev, Heron Press, vol.2, 2006, pp. 771-779 |
| License | http://arxiv.org/licenses/nonexclusive-distrib/1.0/ |
Abstract
We present a first-principles' prediction that two charged particles of masses M_1 and M_2 separated R apart in a dielectric vacuum act on each other always an attractive force in addition to other known forces in between. This component attractive force on one charge results as the Lorentz force in the radiation depolarization- and magnetic- fields of the other charge, being an attractive radiation force, and is in addition to the ordinary repulsive radiation force. The exact solution for the attractive radiation force is F_g=G' M_1M_2/R^2, an identical formula to Newton's law of gravitation. G'=\chi_{0^*}e^4/4\pi\epsilon_0^2\hbar^2\rho_l is identifiable with Newton's gravitational constant, \chi_{0^*} being the susceptibility and \rho_l the linear mass density of the vacuum, and the remaining fundamental constants of the usual meaning. The F_g force is conveyed by a transverse vacuuonic dipole-moment wave traveling at the velocity of light and can penetrate matter freely. In all of respects, the F_g force represents a viable cause of Newton's universal gravity.
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"abstract": "We present a first-principles\u0027 prediction that two charged particles of\nmasses M_1 and M_2 separated R apart in a dielectric vacuum act on each other\nalways an attractive force in addition to other known forces in between. This\ncomponent attractive force on one charge results as the Lorentz force in the\nradiation depolarization- and magnetic- fields of the other charge, being an\nattractive radiation force, and is in addition to the ordinary repulsive\nradiation force. The exact solution for the attractive radiation force is\nF_g=G\u0027 M_1M_2/R^2, an identical formula to Newton\u0027s law of gravitation.\nG\u0027=\\chi_{0^*}e^4/4\\pi\\epsilon_0^2\\hbar^2\\rho_l is identifiable with Newton\u0027s\ngravitational constant, \\chi_{0^*} being the susceptibility and \\rho_l the\nlinear mass density of the vacuum, and the remaining fundamental constants of\nthe usual meaning. The F_g force is conveyed by a transverse vacuuonic\ndipole-moment wave traveling at the velocity of light and can penetrate matter\nfreely. In all of respects, the F_g force represents a viable cause of Newton\u0027s\nuniversal gravity.",
"arxiv_id": "physics/0411245",
"authors": [
"J. X. Zheng-Johansson",
"P-I. Johansson"
],
"categories": [
"physics.class-ph",
"astro-ph",
"gr-qc",
"hep-th"
],
"journal_ref": "Quantum Theory and Symmetries IV, ed. V.K. Dobrev, Heron Press,\n vol.2, 2006, pp. 771-779",
"license": "http://arxiv.org/licenses/nonexclusive-distrib/1.0/",
"title": "Gravity between Internally Electrodynamic Particles",
"url": "https://arxiv.org/abs/physics/0411245"
},
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