Difference between revisions of "The Characterization of Gravitational Collapse as a Mass-Energy Phase Change"
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==Abstract== | ==Abstract== | ||
− | The assumption is made that the transition of mass into energy, and vice versa, is a form of phase change. Several concurrent characteristics and properties accompany this phase change. Some of these characteristics are a theoretical basis for a strong-force law, an explanation for dark energy, and a specific reference frame that Einstein used. The special theory and the general theory converge at the phase change. The most surprising result of the phase-change model is that energy/light possesses a constant gravitational potential. The derivations of these characteristics are all related mathematically in a common path sequence. | + | The assumption is made that the transition of mass into energy, and vice versa, is a form of phase change. Several concurrent characteristics and properties accompany this phase change. Some of these characteristics are a theoretical basis for a strong-force law, an explanation for dark energy, and a specific reference frame that Einstein used. The special theory and the general theory converge at the phase change. The most surprising result of the phase-change model is that energy/light possesses a constant gravitational potential. The derivations of these characteristics are all related mathematically in a common path sequence. |
− | [[Category:New Energy]] | + | [[Category:Scientific Paper|characterization gravitational collapse mass-energy phase change]] |
+ | |||
+ | [[Category:New Energy|characterization gravitational collapse mass-energy phase change]] |
Latest revision as of 19:59, 1 January 2017
Scientific Paper | |
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Title | The Characterization of Gravitational Collapse as a Mass-Energy Phase Change |
Author(s) | Robert J Heaston |
Keywords | gravity, mass-energy |
Published | 2004 |
Journal | Proceedings of the NPA |
Volume | 1 |
Number | 1 |
Pages | 33-36 |
Abstract
The assumption is made that the transition of mass into energy, and vice versa, is a form of phase change. Several concurrent characteristics and properties accompany this phase change. Some of these characteristics are a theoretical basis for a strong-force law, an explanation for dark energy, and a specific reference frame that Einstein used. The special theory and the general theory converge at the phase change. The most surprising result of the phase-change model is that energy/light possesses a constant gravitational potential. The derivations of these characteristics are all related mathematically in a common path sequence.