Rotating Mossbauer Experiments and the Speed of Light: Difference between revisions
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==Abstract== | ==Abstract== | ||
Champeney's 1963 Mossbauer experiment was performed as a first-order test of "ether" velocity, in spite of an earlier paper that proved that there was exact cancellation between two first-order effects, one due to "ether" velocity, and the other due to Lorentz "time" dilation. But experiments show that clock rates are determined by their velocity with respect to non-rating geocentric coordinates. The first-order term "time dilation" term thus reappears, which must be balanced by another, if agreement with the experiment is to be achieved.[[Category:Scientific Paper]] | Champeney's 1963 Mossbauer experiment was performed as a first-order test of "ether" velocity, in spite of an earlier paper that proved that there was exact cancellation between two first-order effects, one due to "ether" velocity, and the other due to Lorentz "time" dilation. But experiments show that clock rates are determined by their velocity with respect to non-rating geocentric coordinates. The first-order term "time dilation" term thus reappears, which must be balanced by another, if agreement with the experiment is to be achieved. | ||
[[Category:Scientific Paper|rotating mossbauer experiments speed light]] | |||
[[Category:Aether]] | [[Category:Aether]] | ||
Revision as of 14:02, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | Rotating Mossbauer Experiments and the Speed of Light |
| Author(s) | Howard C Hayden |
| Keywords | ether velocity, rotating Mossbauer experiments, speed of light, Lorentz time dilation |
| Published | 1992 |
| Journal | Galilean Electrodynamics |
| Volume | 3 |
| Number | 6 |
| Pages | 114-119 |
Abstract
Champeney's 1963 Mossbauer experiment was performed as a first-order test of "ether" velocity, in spite of an earlier paper that proved that there was exact cancellation between two first-order effects, one due to "ether" velocity, and the other due to Lorentz "time" dilation. But experiments show that clock rates are determined by their velocity with respect to non-rating geocentric coordinates. The first-order term "time dilation" term thus reappears, which must be balanced by another, if agreement with the experiment is to be achieved.