Jupiter's orbit and alignment relative to the galaxy is the physical basis of periodic variations of gravitational constant G and the length of day
Résumé
Anderson et al. analyzed measurements of gravitational constant G, and found a periodic variation that matched both the frequency and phase of length of day (LOD) variations previously described by Holme and de Viron. Anderson speculated that the variation might not be real but an undetermined mechanism affecting both measurements in a similar manner. The basis for the periodic variations and the correlation between them has been an area of continuing research. Substantiation of the reported periodic variations in G and LOD is of relevance to researchers in fundamental physics, astrophysics, metrology, geophysics, and particle physics. Reported herein is that the physical basis for the periodic variations is Jupiter's orbit and alignment relative to the Milky Way galaxy.
Mots clés
Astrophysics - Galaxy Astrophysics
Astrophysics Astrophysics of Galaxies
Geophysics
solarphysics
Jupiter
length of day
special relativity
angular precession
symmetry
dark matter
metrology
universal constants
gravity
gravitational constant
general relativity
Solar system general
Newtonian physics
Solar activity cycle
Nuclear decay rates
Domaines
Astrophysique [astro-ph]
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