Add to ORKGBased on Einstein's theory of gravitation, we discuss the influence of a spherically symmetric gravitational field on Maxwell's law of velocity distribution. We derive the equilibrium velocity distribution of low-energy particles in the spherically symmetric gravitational field and calculate the escape rate of low-energy particles in a container with a leak placed in the spherically symmetric gravitational field. They can serve as the tests of Einstein's theory of gravitation
In contrast to molecular gases, granular gases are characterized by inelastic collisions and require...
In this article, we extend Schwarzschild’s solution to Einstein’s gravitational field equations. The...
AbstractIn this article, Schwarzschild metric is extended to obtain a generalized metric for the gra...
For a hard-sphere system under gravity, confined in a closed cubic container in space, the speed and...
Stationary velocity distribution functions are determined for a particle in a gravitational field dr...
In this study the law of classical mechanics for the corpuscular behavior of all entities in all int...
The radial motions of the charged test particles in the field of a spherically symmetric charged obj...
The solution to Einstein’s gravitational field equations exterior to time varying distribu- tions o...
The conservation laws associated with a previously studied metric nonsymmetric theory of gravitation...
In this article it is shown that Newton’s law of gravitation can be derived from the hypothesis of l...
The main purpose of this paper is to seek a mechanical interpretation of gravitational phenomena. W...
Here, we present a profound and complete analytical solution to Einstein’s gravitational field equat...
The fact that the equations of motion for matter remain invariant when a constant is added to the La...
International audienceBased on a tentative interpretation of gravity as a pressure force, a scalar t...
AbstractWe studied the low energy motion of particles in the general covariant version of Hořava–Lif...
In contrast to molecular gases, granular gases are characterized by inelastic collisions and require...
In this article, we extend Schwarzschild’s solution to Einstein’s gravitational field equations. The...
AbstractIn this article, Schwarzschild metric is extended to obtain a generalized metric for the gra...
For a hard-sphere system under gravity, confined in a closed cubic container in space, the speed and...
Stationary velocity distribution functions are determined for a particle in a gravitational field dr...
In this study the law of classical mechanics for the corpuscular behavior of all entities in all int...
The radial motions of the charged test particles in the field of a spherically symmetric charged obj...
The solution to Einstein’s gravitational field equations exterior to time varying distribu- tions o...
The conservation laws associated with a previously studied metric nonsymmetric theory of gravitation...
In this article it is shown that Newton’s law of gravitation can be derived from the hypothesis of l...
The main purpose of this paper is to seek a mechanical interpretation of gravitational phenomena. W...
Here, we present a profound and complete analytical solution to Einstein’s gravitational field equat...
The fact that the equations of motion for matter remain invariant when a constant is added to the La...
International audienceBased on a tentative interpretation of gravity as a pressure force, a scalar t...
AbstractWe studied the low energy motion of particles in the general covariant version of Hořava–Lif...
In contrast to molecular gases, granular gases are characterized by inelastic collisions and require...
In this article, we extend Schwarzschild’s solution to Einstein’s gravitational field equations. The...
AbstractIn this article, Schwarzschild metric is extended to obtain a generalized metric for the gra...