TITLE:
Consideration of the Daily Variation of Gravity on the Manifestation of Gravitational Shielding
AUTHORS:
Toir Makhsudovich Radzhabov
KEYWORDS:
Gravitational Shielding, Diurnal Variations of Gravity, Solar Eclipse, Fatio-Lesage Theory, Gravity Anomalies, Universal Gravitational Constant, Semidiurnal Changes, Precession of Mercury’s Perihelion, Hidden Mass
JOURNAL NAME:
Journal of Geoscience and Environment Protection,
Vol.10 No.7,
July
11,
2022
ABSTRACT: The result of mathematical and physical analysis of the daily change in
gravity is presented. The subject of consideration was the manifestation of
semi-daily factors in diurnal variations of gravity. The assumption is
investigated, according to which the cause of the half-day factors is the
gravitational shielding of the planet Earth. Gravitational shielding is
considered as a function of the size and thickness of celestial bodies and
growing with distance from their poles. It is concluded that the planet Earth
has the property of partial gravitational shielding, and the Moon does not have
enough thickness to exhibit a tangible gravitational shielding. The obtained
mathematical results correspond to the
existing experimental data. It is suggested that gravitational shielding
is the cause of the precession of the perihelion of Mercury and the
peculiarities of the manifestation of tidal processes. It is assumed that
gravitational shielding is one of the main reasons for the presence of hidden
substances in the Universe. It is concluded that the physical picture with
mutual shielding of interaction elements corresponds to the classical ideas of
Fatio and Lesage. This approach is proposed as an alternative point of view to
the existing theory on the description of tidal processes. It is shown that the
existing basic approach to the description of tidal forces is unsatisfactory: the
factors underlying the existing approaches have values 10 times less than those
observed and cannot be considered as the reason for the manifestation of
half-day manifestations in the daily change in gravity. The work is a continuation of the implementation by
the author of P. Dirac’s ideas about accounting for the size of microparticles
in physical theory.