Calculation of So-Called General Relativistic Phenomena by Advancing Newton's Theory of Gravitation, Maintaining Classical Conceptions of Space and Relativity: Difference between revisions
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[[Category:Scientific Paper|calculation so-called general relativistic phenomena advancing newton 's theory gravitation maintaining classical conceptions space relativity]] | [[Category:Scientific Paper|calculation so-called general relativistic phenomena advancing newton 's theory gravitation maintaining classical conceptions space relativity]] | ||
[[Category:Gravity]] | [[Category:Gravity|calculation so-called general relativistic phenomena advancing newton 's theory gravitation maintaining classical conceptions space relativity]] | ||
[[Category:Relativity]] | [[Category:Relativity|calculation so-called general relativistic phenomena advancing newton 's theory gravitation maintaining classical conceptions space relativity]] | ||
Latest revision as of 22:22, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | Calculation of So-Called General Relativistic Phenomena by Advancing Newton\'s Theory of Gravitation, Maintaining Classical Conceptions of Space and Relativity |
| Read in full | Link to paper |
| Author(s) | Reiner Georg Ziefle |
| Keywords | perihelion, Mercury, relativity, GRT, pulsar, PSR 1913+16, gravitation, Paul Gerber, Newton, Einstein |
| Published | 2003 |
| Journal | Physics Essays |
| Volume | 16 |
| Number | 3 |
| No. of pages | 10 |
| Pages | 375-384 |
Read the full paper here
Abstract
With the example of the motion of Mercury around the sun it is shown, how Newton's Theory of Gravitation should be advanced by taking into consideration the finite velocity of gravitational expansion and the present concept of transference of forces by particles to be able to calculate so-called general relativistic phenomena, as the additional motion of Mercury's perihelion, the curvation of a light beam at the surface of the sun and the phenomena observed at the binary pulsar PSR 1913+16, maintaining classical conceptions of an Euklidean space and the Galileian principle of relativity.