Add to ORKGWith a little help from the wave equation, we show that the square of the first derivative of the psi-function with respect to time is an energy density. We then use potential and electromagnetic theories to develop special relativity’s mass-energy relation. The square of the first derivative with respect to time of the wave equation’s psi-function yields special relativity’s mass-energy, 2 2 m
International audienceBased on a tentative interpretation of gravity as a pressure force, a scalar t...
This paper is aimed to elaborate the problem of energy–momentum in general relativity. In this conne...
This paper introduces the essences of mass, time, length and energy, as well as their standard measu...
In 1905, Einstein carried out his first derivation of the mass-energy equivalence by studying in dif...
This paper derives a series of the mass–energy equivalence in special relativity in a new way. The n...
Abstract: Under some well-defined conditions the mathematical formalism of quantum mechanics enables...
In this paper I derive an equation relating the gravitational acceleration with the gravitational wa...
In the Cosmological Special Theory of Relativity, we study energy-momentum relations, Klein- Gordon ...
Presented is a theory in fundamental theoretical physics that establishes the relationship between t...
Abstract: This paper introduces the essences of mass, time, length and energy, as well as their stan...
International audienceThe celebrated mass-energy equivalence relation, E=mc2, was derived by Einstei...
Abstract—In general, it is well known that the Schrödinger equation is not compatible with special r...
This is the first book in which Einstein's equation is explicitly compared with its popular though n...
Einstein’s theory of general relativity which has been experimentally proved to be true theory of gr...
Three related topics are discussed to show the "simplicity, harmony and beauty" of the theory of spe...
International audienceBased on a tentative interpretation of gravity as a pressure force, a scalar t...
This paper is aimed to elaborate the problem of energy–momentum in general relativity. In this conne...
This paper introduces the essences of mass, time, length and energy, as well as their standard measu...
In 1905, Einstein carried out his first derivation of the mass-energy equivalence by studying in dif...
This paper derives a series of the mass–energy equivalence in special relativity in a new way. The n...
Abstract: Under some well-defined conditions the mathematical formalism of quantum mechanics enables...
In this paper I derive an equation relating the gravitational acceleration with the gravitational wa...
In the Cosmological Special Theory of Relativity, we study energy-momentum relations, Klein- Gordon ...
Presented is a theory in fundamental theoretical physics that establishes the relationship between t...
Abstract: This paper introduces the essences of mass, time, length and energy, as well as their stan...
International audienceThe celebrated mass-energy equivalence relation, E=mc2, was derived by Einstei...
Abstract—In general, it is well known that the Schrödinger equation is not compatible with special r...
This is the first book in which Einstein's equation is explicitly compared with its popular though n...
Einstein’s theory of general relativity which has been experimentally proved to be true theory of gr...
Three related topics are discussed to show the "simplicity, harmony and beauty" of the theory of spe...
International audienceBased on a tentative interpretation of gravity as a pressure force, a scalar t...
This paper is aimed to elaborate the problem of energy–momentum in general relativity. In this conne...
This paper introduces the essences of mass, time, length and energy, as well as their standard measu...