Difference between revisions of "On Relativistic Effects and Their Origin"
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− | A new model of gravitational field equivalent with aether is used to show the mechanism of mass changing when particles or bodies are changing their states of motion. The effect of time dilation accompanies the mass change so it is a secondary effect. The mass change is a consequence of the Universe tending toward equilibrium between dimagrans (components of the gravitational field) "falling" on and "falling away" from the spinning "surface" of basic elementary particles in every state of motion.[[Category:Scientific Paper]] | + | A new model of gravitational field equivalent with aether is used to show the mechanism of mass changing when particles or bodies are changing their states of motion. The effect of time dilation accompanies the mass change so it is a secondary effect. The mass change is a consequence of the Universe tending toward equilibrium between dimagrans (components of the gravitational field) "falling" on and "falling away" from the spinning "surface" of basic elementary particles in every state of motion. |
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+ | [[Category:Scientific Paper|relativistic effects origin]] | ||
[[Category:Aether]] | [[Category:Aether]] | ||
[[Category:Relativity]] | [[Category:Relativity]] |
Revision as of 10:48, 1 January 2017
Scientific Paper | |
---|---|
Title | On Relativistic Effects and Their Origin |
Author(s) | Jozef S Wilczynski |
Keywords | relativistic effects, origin, gravitational field equivalent, aether, motion, equilibrium |
Published | 1987 |
Journal | None |
Pages | 114-121 |
Abstract
A new model of gravitational field equivalent with aether is used to show the mechanism of mass changing when particles or bodies are changing their states of motion. The effect of time dilation accompanies the mass change so it is a secondary effect. The mass change is a consequence of the Universe tending toward equilibrium between dimagrans (components of the gravitational field) "falling" on and "falling away" from the spinning "surface" of basic elementary particles in every state of motion.