Significance of gyropotentials in metric theory of inertia

The constancy of orbital velocities of peripheral stars in a spiral galaxy points to a potential regime of co-rotation together with the interstellar densities of the galactic disk. The Einstein gyropotential rises to the evolutionary constant of a self-rotating metric profile, while the Newtonian p...

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Bibliographic Details
Published inarXiv.org
Main Author Bulyzhenkov, I E
Format Paper
LanguageEnglish
Published Ithaca Cornell University Library, arXiv.org 21.12.2022
Subjects
Axes of rotation
Equatorial orbits
Galactic disk
Galactic rotation
Kuiper belt
Saturn rings
Solar system
Spiral galaxies
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Summary:The constancy of orbital velocities of peripheral stars in a spiral galaxy points to a potential regime of co-rotation together with the interstellar densities of the galactic disk. The Einstein gyropotential rises to the evolutionary constant of a self-rotating metric profile, while the Newtonian potential falls radially. Gyropotential in vortex self-organizations creates centripetal gyroforces that prevail over Newtonian attraction of probe bodies at large distances from the axis of rotation. For practical verifications, the 1914 geodesic relations of Einstein predict the inverse distance velocities for retrograde stars. For the solar system, gyrometric corrections of Newtonian forces under transitions to the potential circulation in material vortexes can be sought in the Kuiper Belt, the peripheral rings of Saturn and high equatorial orbits around other planets.
ISSN:2331-8422