Difference between revisions of "Measuring Superluminal Velocity"
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− | Although 66 extragalactic sources are listed where superluminal velocities appear to range from greater than c to 26 times c. such distant observations lack laboratory experimental evidence. A possible low cost experiment is proposed to measure superluminaJ velocities resulting from explosions. It is hypothesized that explosions can produce torsion field changes that can be detected with the Hodowanek-Ramsay gravity fluctuation instrument. The measurement would be the time interval between the measure of the torsion field pulse and a high frequency radio pulse. The paper cites Russian papers on superluminal velocities of torsion field fluctuations and discusses the possible impact on Einstein's second postulate.[[Category:Scientific Paper]] | + | Although 66 extragalactic sources are listed where superluminal velocities appear to range from greater than c to 26 times c. such distant observations lack laboratory experimental evidence. A possible low cost experiment is proposed to measure superluminaJ velocities resulting from explosions. It is hypothesized that explosions can produce torsion field changes that can be detected with the Hodowanek-Ramsay gravity fluctuation instrument. The measurement would be the time interval between the measure of the torsion field pulse and a high frequency radio pulse. The paper cites Russian papers on superluminal velocities of torsion field fluctuations and discusses the possible impact on Einstein's second postulate. |
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+ | [[Category:Scientific Paper|measuring superluminal velocity]] | ||
[[Category:Gravity]] | [[Category:Gravity]] |
Revision as of 10:41, 1 January 2017
Scientific Paper | |
---|---|
Title | Measuring Superluminal Velocity |
Author(s) | Hal Fox |
Keywords | Superluminal Velocity |
Published | 1999 |
Journal | None |
Abstract
Although 66 extragalactic sources are listed where superluminal velocities appear to range from greater than c to 26 times c. such distant observations lack laboratory experimental evidence. A possible low cost experiment is proposed to measure superluminaJ velocities resulting from explosions. It is hypothesized that explosions can produce torsion field changes that can be detected with the Hodowanek-Ramsay gravity fluctuation instrument. The measurement would be the time interval between the measure of the torsion field pulse and a high frequency radio pulse. The paper cites Russian papers on superluminal velocities of torsion field fluctuations and discusses the possible impact on Einstein's second postulate.