Unification of Space-Time-Matter-Energy: Difference between revisions
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<em>Appl. Comput. Math.</em> 7(2) (2008), pp. 255-268. A complete description of space-time, matter and energy is given in Einstein's special theory of relativity. We derive explicit equations of motion for two falling bodies, based upon the principle that each body must subtract the mass-equivalent for any change in its kinetic energy that is incurred during the fall. We find that there are no singularities and consequently no blackholes. A complete description of space-time, matter and energy is given in Einstein's special theory of relativity. We derive explicit equations of motion for two falling bodies, based upon the principle that each body must subtract the mass-equivalent for any change in its kinetic energy that is incurred during the fall. We find that there are no singularities and consequently no blackholes. | <em>Appl. Comput. Math.</em> 7(2) (2008), pp. 255-268. A complete description of space-time, matter and energy is given in Einstein's special theory of relativity. We derive explicit equations of motion for two falling bodies, based upon the principle that each body must subtract the mass-equivalent for any change in its kinetic energy that is incurred during the fall. We find that there are no singularities and consequently no blackholes. A complete description of space-time, matter and energy is given in Einstein's special theory of relativity. We derive explicit equations of motion for two falling bodies, based upon the principle that each body must subtract the mass-equivalent for any change in its kinetic energy that is incurred during the fall. We find that there are no singularities and consequently no blackholes. | ||
[[Category:Scientific Paper]] | [[Category:Scientific Paper|unification space-time-matter-energy]] | ||
[[Category:Relativity]] | [[Category:Relativity]] | ||
Revision as of 13:35, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | Unification of Space-Time-Matter-Energy |
| Read in full | Link to paper |
| Author(s) | Tolga Yarman, Garret Sobczyk |
| Keywords | Binding energy, Elementary forces, Energy conservation, Equivalence principle, Minkowski |
| Published | 2008 |
| Journal | None |
| Volume | 7 |
| Number | 2 |
| No. of pages | 14 |
| Pages | 255-268 |
Read the full paper here
Abstract
Appl. Comput. Math. 7(2) (2008), pp. 255-268. A complete description of space-time, matter and energy is given in Einstein's special theory of relativity. We derive explicit equations of motion for two falling bodies, based upon the principle that each body must subtract the mass-equivalent for any change in its kinetic energy that is incurred during the fall. We find that there are no singularities and consequently no blackholes. A complete description of space-time, matter and energy is given in Einstein's special theory of relativity. We derive explicit equations of motion for two falling bodies, based upon the principle that each body must subtract the mass-equivalent for any change in its kinetic energy that is incurred during the fall. We find that there are no singularities and consequently no blackholes.