Electric Theory of Gravitation: Difference between revisions
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Independent positive and negative partial fields of equal value are assumed to be associated with every source mass. These complimentary electric fields behve like dormant fields with a net zero field strength except in the region of a proton or electron. A mass upon which these fields are impressed contains an equal number of protons and electrons. Even a neutron is assumed to contain a proton and electron. The impressed partial fields exert a combination of attraction and repulsion on protons and electrons embedded in that mass. A nonlinearity in the region of each of those charges tilts the balance such that the net electric force is one of attraction that meets the conditions of a gravitation force. The theory is then extended to include additional properties of the dormant field, such as a "medium" to take the place of Maxwell's luminiferous ether and a feedback medium in electrodynamics. This unification of electromagnetic theory and gravitation also includes gravitational radiation. | Independent positive and negative partial fields of equal value are assumed to be associated with every source mass. These complimentary electric fields behve like dormant fields with a net zero field strength except in the region of a proton or electron. A mass upon which these fields are impressed contains an equal number of protons and electrons. Even a neutron is assumed to contain a proton and electron. The impressed partial fields exert a combination of attraction and repulsion on protons and electrons embedded in that mass. A nonlinearity in the region of each of those charges tilts the balance such that the net electric force is one of attraction that meets the conditions of a gravitation force. The theory is then extended to include additional properties of the dormant field, such as a "medium" to take the place of Maxwell's luminiferous ether and a feedback medium in electrodynamics. This unification of electromagnetic theory and gravitation also includes gravitational radiation. | ||
[[Category:Scientific Paper]] | [[Category:Scientific Paper|electric theory gravitation]] | ||
[[Category:Gravity]] | [[Category:Gravity]] | ||
Revision as of 12:19, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | Electric Theory of Gravitation |
| Author(s) | Thomas G Barnes, Harold S Slusher, Francisco S Ramirez |
| Keywords | Electric, Gravitation |
| Published | 1982 |
| Journal | Creation Research Society Quarterly |
| Volume | 19 |
| Number | 2 |
| Pages | 113-116 |
Abstract
Independent positive and negative partial fields of equal value are assumed to be associated with every source mass. These complimentary electric fields behve like dormant fields with a net zero field strength except in the region of a proton or electron. A mass upon which these fields are impressed contains an equal number of protons and electrons. Even a neutron is assumed to contain a proton and electron. The impressed partial fields exert a combination of attraction and repulsion on protons and electrons embedded in that mass. A nonlinearity in the region of each of those charges tilts the balance such that the net electric force is one of attraction that meets the conditions of a gravitation force. The theory is then extended to include additional properties of the dormant field, such as a "medium" to take the place of Maxwell's luminiferous ether and a feedback medium in electrodynamics. This unification of electromagnetic theory and gravitation also includes gravitational radiation.