TL;DR
This paper proposes a method to measure the speed of gravity by comparing it with the Coulomb force, suggesting gravity propagates faster than light based on satellite observations.
Contribution
It introduces a novel experimental design to measure gravitational and Coulomb force speeds and explores implications for gravitational wave wavelengths.
Findings
Speed of gravity exceeds the speed of light
Satellite data supports faster-than-light gravity
Implications for gravitational wave structure
Abstract
The speed of gravity is an important universal constant. But, it has not been directly known with experiment or observation. The explanations for it are contradicted with each other. Here, it is presented that the interaction and propagation of the gravitational field could be tested and understood by comparing the measured speed of gravitational force with the measured speed of Coulomb force. A design to measure the speeds of gravitational and Coulomb force is presented. From satellite motions, it is observed that the speed of gravitational force is larger than the speed of light in a vacuum. From this observation and the recent experiments, the structure of electric and gravitational fields is studied. A line to indirectly test the wavelengths of gravitational waves is presented.
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