Abstract
In work on the basis of static model of a structure of atoms it is shown that the gravitational and electrostatic interactions have the same nature. The electrostatic interaction is the interaction of electric charges at small distances, whereas the gravitational interaction is the interaction of electric charges at large distances.
Highlights
IntroductionThe gravity remains the most puzzling phenomenon of the Nature. The paradox consists in that the gravitation involves all subjects existing in the world, from the Universe itself and to its microcomponents
At the present time, the gravity remains the most puzzling phenomenon of the Nature
The electrostatic interaction is the interaction of electric charges at small distances, whereas the gravitational interaction is the interaction of electric charges at large distances
Summary
The gravity remains the most puzzling phenomenon of the Nature. The paradox consists in that the gravitation involves all subjects existing in the world, from the Universe itself and to its microcomponents. The electrically neutral atom, molecule, or any macro body, while interacting with electric charges of the other analogous systems, undergo only the electrostatic attraction at distances much more than the size of an atom. Just this is the essence of the proposed mechanism of gravitational interaction. Since the physical basis of the appearance of the gravitational interaction is given by the binomial potential of the interaction of an electron and a proton, our main task was to demonstrate the reality of the binomial potential by specific examples To this end, we considered the classical problem on the motion of an electron in the field of the binomial potential of a proton and solved the Schrödinger equation with this potential (Gudym & Andreeva, 2008). The forces of attraction acting between physical bodies (gravity force) are a result of the electrostatic interaction of electrically neutral atoms with electric charges of other, electrically neutral, atoms
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