Doppler Relativity Theory: Difference between revisions
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The notions of absolute time and motion seem needed to describe processes that occur in a gravity environment. Einstein realized that the equations of Special Relativity Theory (SRT) could not be valid in a gravity environment, because SRT is based on the concepts of relative time and motion. So he generalized from the SRT concept of space-time and metric tensor to develop the General Relativity Theory (GRT), which describes motions of objects in a space-time that is curved in comparison to absolute space-time. If these same absolute concepts are incorporated into the framework of SRT, the result is what I call Doppler Relativity Theory (DRT). The equations of DRT are valid in all environments.[[Category:Scientific Paper]] | The notions of absolute time and motion seem needed to describe processes that occur in a gravity environment. Einstein realized that the equations of Special Relativity Theory (SRT) could not be valid in a gravity environment, because SRT is based on the concepts of relative time and motion. So he generalized from the SRT concept of space-time and metric tensor to develop the General Relativity Theory (GRT), which describes motions of objects in a space-time that is curved in comparison to absolute space-time. If these same absolute concepts are incorporated into the framework of SRT, the result is what I call Doppler Relativity Theory (DRT). The equations of DRT are valid in all environments. | ||
[[Category:Scientific Paper|doppler relativity theory]] | |||
[[Category:Relativity]] | [[Category:Relativity]] | ||
Revision as of 12:16, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | Doppler Relativity Theory |
| Author(s) | Ken H Seto |
| Keywords | {{{keywords}}} |
| Published | 2001 |
| Journal | Galilean Electrodynamics |
| Volume | 12 |
| Number | 6 |
| Pages | 116-119 |
Abstract
The notions of absolute time and motion seem needed to describe processes that occur in a gravity environment. Einstein realized that the equations of Special Relativity Theory (SRT) could not be valid in a gravity environment, because SRT is based on the concepts of relative time and motion. So he generalized from the SRT concept of space-time and metric tensor to develop the General Relativity Theory (GRT), which describes motions of objects in a space-time that is curved in comparison to absolute space-time. If these same absolute concepts are incorporated into the framework of SRT, the result is what I call Doppler Relativity Theory (DRT). The equations of DRT are valid in all environments.