Novel quantitative push gravity/electricity theory poised for verification
In: oai:zenodo.org:8314881; (2023)
report
Zugriff:
Note1: The edits of this version_16 are typed in red font Note2: On page 191, please replace the phrase "a photon has zero mass but non-zero energy" with the phrase "a photon has zero rest mass but non-zero energy and momentum" Abstract: New work provides compelling evidence for a genuine re-appraisal of an old way to explain gravity, which has been sidelined in the periphery of science for a long time. A novel quantitative push gravity theory has been advanced on the basis of a set of primary principles (postulates), from which the derivation of classical acceleration and force by stationary massive bodies in the steady state is possible. In contrast to prior conceptions, it is shown that the absorption of gravity particles by matter need not be extremely weak and linear, in order to derive and explain the observed classical laws of gravity. Any value of the absorption coefficient by a uniform spherical mass produces a gravitational field obeying the inverse square of distance law. The gravitational constant (big G), is itself a function of the ratio of the absorption coefficient over the density of matter. The latter ratio (mass attenuation coefficient) now becomes the new universal gravitational constant of the cosmos, whilst G can vary in different locations of the universe; it remains invariable inside material bodies. The measured mass of planets and stars is only an effective or apparent mass actually smaller than the real mass due to a self-shadowing or shielding effect of the absorption of gravitational particles. Any given mass appears quantitatively different depending on its spatial distribution. We now find that Newton's gravitational law uses only the apparent (or effective) masses with a potentially variable G, but the inverse square distance relationship is locally preserved in the cosmos. The radiant flux of energetic particles being uniform over a region of space creates a maximum acceleration of gravity for all material bodies in that region, so that any further mass accretion over a certain ...
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Novel quantitative push gravity/electricity theory poised for verification
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Autor/in / Beteiligte Person: | Danilatos, Gerasimos |
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Quelle: | oai:zenodo.org:8314881; (2023) |
Veröffentlichung: | 2023 |
Medientyp: | report |
DOI: | 10.5281/zenodo.8314881 |
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