TITLE:
On The Gravitational Shielding, Gravitational Permeability and Hidden Matter
AUTHORS:
Toir Makhsudovich Radzhabov
KEYWORDS:
Gravitational Shielding, Gravitational Permeability, Lesage Theory, Gravity Variation, Universal Gravitational Constant, Semi-Daily Gravity Changes, Precession of Mercury Perihelion, Density of Planets
JOURNAL NAME:
International Journal of Geosciences,
Vol.13 No.7,
July
19,
2022
ABSTRACT: The possibility of gravitational shielding from more
massive objects than the Moon-planet Earth and the giant planets of the Solar
System is considered. Within the framework of the Lesage concept, the mutual
spatial shielding of mass-forming elements-atomic nuclei in ordinary matter-was
evaluated. It is concluded that the size of the Moon is insufficient for
tangible gravitational shielding and partial mutual shielding is about 50% for
planet Earth. It is determined that there is a critical thickness of ordinary
matter at which complete mutual shielding of atomic nuclei is observed. The
estimated critical thickness is aboutdc=1.3 X 108m, which is typical for the sizes of giant planets. It is
concluded that due to the presence of gravitational shielding, not the entire
mass of massive celestial bodies participates in the act of gravitational interaction,
which leads to the conclusion that there is a hidden mass of massive objects
and to low values in the calculation of the density of the giant planets of the
Solar System. It has been established that the true mass and true density of
giant planets exceed their known values by 5 times. The presence of
gravitational shielding from the planet Earth leads to a revision of the
physical picture of nature and the consequences of tidal forces. The idea of P.
Dirac concerning the accounting of the sizes of microparticles-nucleons,
expressed for the further development of the physical theory, is realized. The
gravitational size of the atomic nucleus is calculated on the order of 10-18 m.