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UNIVERSITY OF BUCHAREST
FACULTY OF PHYSICS Guest
2024-11-27 9:28 |
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Conference: Bucharest University Faculty of Physics 2017 Meeting
Section: Theoretical Physics and Applied Mathematics
Title:
Unconventional Experiment on Gravitational Interaction
Authors:
Vasile M. CRISTOIU; Ion GRUIA; Luminița C. CIOBOTARU
Affiliation:
University of Bucharest, Faculty of Physics
E-mail
gruia_ion@yahoo.com
Keywords:
gravitational constant, Cavendish Gravitational Balance, gravitational vibration.
Abstract:
The present paper is based on the interesting finding, resulting from the experimental measurements, that Cavendish's constant gravitational attraction (G) has a different value if it is measured between two bodies that rotate in relation to an external rotation center or in one located in an internal reference system. According to current theories, this constant should have the same value. The instrument used to measure the gravitational constant is the Cavendish gravitational Balance, type CGB001, manufactured by US United Scientific Supplies. The measurement method chosen is the displacement method, which is more accurate. The experiment, as well as the conditions of realization, are presented in detail in the paper. The proposed explanation is based on the fact that gravity is born with the formation of bodies and manifests itself as a natural tendency for each particle of matter to occupy a place, as close as possible, to the center of rotation of the heavenly body to which it belongs. Thus, gravity represents a negative state of acceleration to which the atoms of a celestial body have been subjected during its formation, relative to the center of rotation of that astral. This acceleration state, which is also found in the structure of the hydrogen atom, is called gravitational vibration. In the process of celestial body formation, gravitational vibration is memorized at the atomic level due to its central body-like structure. So, anybody on Earth and any atom that is part of Earth, has its own gravitational vibration oriented towards the Earth's rotation center, in accordance with the 1/R2 law it determines. Reinterpretation of the Cavendish experiment links the result obtained by gravity vibration amplitude and orientation. The paper shows that the value of gravity constant G in Newton's law depends on the gravitational vibration place where the experiment takes place.
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