The Quantum Law of Gravity: Difference between revisions
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Section A will propose the law of quantum gravity that offers unification between gravity and electromagnetic interaction rendering the law of Newtonian gravity as a special case. Similarly in Section B the mathematical relation for the gravitational equivalent of a magnetic field will be deduced, and a new formula for the orbital inclination will be presented. In Section C the inter-relation between gravity and time will be established, and the mathematical relation for Planck time i.e. ''Sqrt(hG/c<sup>5</sup>) = r dm / p'' will be introduced. Finally in Section D we will hint towards the microscopic.[[Category:Scientific Paper]] | Section A will propose the law of quantum gravity that offers unification between gravity and electromagnetic interaction rendering the law of Newtonian gravity as a special case. Similarly in Section B the mathematical relation for the gravitational equivalent of a magnetic field will be deduced, and a new formula for the orbital inclination will be presented. In Section C the inter-relation between gravity and time will be established, and the mathematical relation for Planck time i.e. ''Sqrt(hG/c<sup>5</sup>) = r dm / p'' will be introduced. Finally in Section D we will hint towards the microscopic. | ||
[[Category:Scientific Paper|quantum law gravity]] | |||
[[Category:Gravity]] | [[Category:Gravity]] | ||
Revision as of 13:24, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | The Quantum Law of Gravity |
| Read in full | Link to paper |
| Author(s) | Faheem Murtaza |
| Keywords | {{{keywords}}} |
| Published | 2011 |
| Journal | None |
| No. of pages | 3 |
Read the full paper here
Abstract
Section A will propose the law of quantum gravity that offers unification between gravity and electromagnetic interaction rendering the law of Newtonian gravity as a special case. Similarly in Section B the mathematical relation for the gravitational equivalent of a magnetic field will be deduced, and a new formula for the orbital inclination will be presented. In Section C the inter-relation between gravity and time will be established, and the mathematical relation for Planck time i.e. Sqrt(hG/c5) = r dm / p will be introduced. Finally in Section D we will hint towards the microscopic.