Principle of Energy Equilibrium Shift and Relative-Absolute Spacetime View

Abstract

Runsheng Tu*

If the law of conservation of energy can be broken under certain conditions, this condition and the reason why it works is the principle of energy conservation state change. Its value lies in its ability to serve as a criterion for theoretical correctness. One of its contents is that as long as the relativistic effect coefficients of the two forms of energy are different, changing the relative motion state of the observer can disrupt the energy balance between these two forms, thereby deviating from the energy conservation state. Based on examples and quantitative methods, it is proven that this principle is valid, and the principle of narrow relativity cannot withstand the test of this criterion. According to the meaning of "time and space change due to absolute motion", a relative-absolute spacetime view can be established. The case study has shown that "compared to the relative spatiotemporal view, the relative-absolute spatiotemporal view has the advantage of fewer contradictions and stronger practicality"; the relative spatiotemporal view is an approximation of the relative-absolute spatiotemporal view. As long as the experimental data of V. et al. is reliable, according to the new spatiotemporal view, it can be predicted that the absolute velocity of the Earth is 0.0005c.

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