Difference between revisions of "On the General Solution to Einstein's Vacuum Field and Its Implications for Relativistic Degeneracy"
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− | The general solution to Einstein?s vacuum field equations for the point-mass in all its configurations must be determined in such a way as to provide a means by which an infinite sequence of particular solutions can be readily constructed. It is from such a solution that the underlying geometry of Einstein?s universe can be rightly explored. I report here on the determination of the general solution and its consequences for the theoretical basis of relativistic degeneracy, i. e. gravitational collapse and the black hole.[[Category:Scientific Paper]] | + | The general solution to Einstein?s vacuum field equations for the point-mass in all its configurations must be determined in such a way as to provide a means by which an infinite sequence of particular solutions can be readily constructed. It is from such a solution that the underlying geometry of Einstein?s universe can be rightly explored. I report here on the determination of the general solution and its consequences for the theoretical basis of relativistic degeneracy, i. e. gravitational collapse and the black hole. |
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+ | [[Category:Scientific Paper|general solution einstein 's vacuum field implications relativistic degeneracy]] | ||
[[Category:Relativity]] | [[Category:Relativity]] |
Revision as of 10:49, 1 January 2017
Scientific Paper | |
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Title | On the General Solution to Einstein\'s Vacuum Field and Its Implications for Relativistic Degeneracy |
Author(s) | Stephen John Crothers |
Keywords | Vacuum Field, Relativistic Degeneracy |
Published | 2005 |
Journal | Progress In Physics |
Volume | 1 |
Pages | 68-73 |
Abstract
The general solution to Einstein?s vacuum field equations for the point-mass in all its configurations must be determined in such a way as to provide a means by which an infinite sequence of particular solutions can be readily constructed. It is from such a solution that the underlying geometry of Einstein?s universe can be rightly explored. I report here on the determination of the general solution and its consequences for the theoretical basis of relativistic degeneracy, i. e. gravitational collapse and the black hole.