Difference between revisions of "Derivation of the Schwarzchild Solution from a Scalar Model of Spherical Quantum Waves"
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− | It is shown that if space is modeled as an elastic medium that propagates spherical, scalar quantum-waves, then the ratio of the square of the wave velocity to c<sup>2</sup> reveals the same results as the familiar time dilation formula that is produced from the Schwarzchild G<sub>44</sub> component. The Schwarzchild radius derived from the scalar-wave model is shown to be equal to the radius of the universe, implying that there are no gravitational singularities present within the radius of the Universe.[[Category:Scientific Paper]] | + | It is shown that if space is modeled as an elastic medium that propagates spherical, scalar quantum-waves, then the ratio of the square of the wave velocity to c<sup>2</sup> reveals the same results as the familiar time dilation formula that is produced from the Schwarzchild G<sub>44</sub> component. The Schwarzchild radius derived from the scalar-wave model is shown to be equal to the radius of the universe, implying that there are no gravitational singularities present within the radius of the Universe. |
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+ | [[Category:Scientific Paper|derivation schwarzchild solution scalar model spherical quantum waves]] | ||
[[Category:Gravity]] | [[Category:Gravity]] |
Revision as of 10:14, 1 January 2017
Scientific Paper | |
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Title | Derivation of the Schwarzchild Solution from a Scalar Model of Spherical Quantum Waves |
Author(s) | Michael Harney |
Keywords | {{{keywords}}} |
Published | 2008 |
Journal | Galilean Electrodynamics |
Volume | 19 |
Number | S3 |
Pages | 54-56 |
Abstract
It is shown that if space is modeled as an elastic medium that propagates spherical, scalar quantum-waves, then the ratio of the square of the wave velocity to c2 reveals the same results as the familiar time dilation formula that is produced from the Schwarzchild G44 component. The Schwarzchild radius derived from the scalar-wave model is shown to be equal to the radius of the universe, implying that there are no gravitational singularities present within the radius of the Universe.