discovered relativistic Photon-Atom-Energy paradox led to a solution, according to which the Planck constant is to be treated relativistic, whereby a new relativistic effect and a fourth relativistic attribute was discovered. Nevertheless it stays invariant in Lorentz transformations. The same result was derived in another way and motivation using same new method. A second problem was discovered by analysing Planck mass, length and time relativistically. This does lead to a discovery of 4 more paradoxes of Special Relativity, which were solved by same relativistic Planck Constant. Testing new method on speed of light we discovered that in SRT it is not kept invariant but depends on Lorentz factor, so it contradicts own 2-d postulate. This i...
In this paper, we try to use a new way to deduce the transformation formula of special relativity. O...
We investigate relativistic equations for the momentum, kinetic energy, wavelength and frequency of ...
We demonstrate how one can extract the Planck length from a ball with a built-in stopwatch, without ...
We discovered a relativistic Photon-Atom-Energy paradox of Special Relativity and a de Broglie wavel...
We show that the values of certain physical constants verify a geometry of which the Planck length a...
The purpose of this article is not to criticize the theory of relativity, but to try to understand w...
The present work calls attention to an undeclared assumption made by Einstein in his landmark paper ...
This letter presents an insight into Planck’s natural-units, that they are geometric-mean- values o...
Following the Special Theory of Relativity, Florentin Smarandache generalized the Lorentz Contractio...
11 pagesThe photon mass is ordinarily assumed to be exactly zero. However, this is merely a theoreti...
I show that a Planck-scale deformation of the relativistic dispersion relation, which has been indep...
The relativistic energy-momentum relationship EE = pp + mo(mo) (c=1) incorporates space-time through...
A cornerstone of Einstein's special relativity is Lorentz invariance—the postulate that all observer...
It is shown that there is a contradiction within conventional quantum mechanics [K. Nagata, Int J Th...
Entities in physics involve either mass or energy or both. Projectiles combine both rest mass and ki...
In this paper, we try to use a new way to deduce the transformation formula of special relativity. O...
We investigate relativistic equations for the momentum, kinetic energy, wavelength and frequency of ...
We demonstrate how one can extract the Planck length from a ball with a built-in stopwatch, without ...
We discovered a relativistic Photon-Atom-Energy paradox of Special Relativity and a de Broglie wavel...
We show that the values of certain physical constants verify a geometry of which the Planck length a...
The purpose of this article is not to criticize the theory of relativity, but to try to understand w...
The present work calls attention to an undeclared assumption made by Einstein in his landmark paper ...
This letter presents an insight into Planck’s natural-units, that they are geometric-mean- values o...
Following the Special Theory of Relativity, Florentin Smarandache generalized the Lorentz Contractio...
11 pagesThe photon mass is ordinarily assumed to be exactly zero. However, this is merely a theoreti...
I show that a Planck-scale deformation of the relativistic dispersion relation, which has been indep...
The relativistic energy-momentum relationship EE = pp + mo(mo) (c=1) incorporates space-time through...
A cornerstone of Einstein's special relativity is Lorentz invariance—the postulate that all observer...
It is shown that there is a contradiction within conventional quantum mechanics [K. Nagata, Int J Th...
Entities in physics involve either mass or energy or both. Projectiles combine both rest mass and ki...
In this paper, we try to use a new way to deduce the transformation formula of special relativity. O...
We investigate relativistic equations for the momentum, kinetic energy, wavelength and frequency of ...
We demonstrate how one can extract the Planck length from a ball with a built-in stopwatch, without ...