We present a derivation of the transformation rules between inertial systems making no other assumptions than the existence of the latter, and show that generically these rules are characterized by a constant of nature with the dimensions of an inverse velocity squared having the same value in all inertial frames. No independent postulate of the existence of an absolute velocity for light waves or other carriers of physical information is necessary. Aside from the usual Lorentz- and galilean transformations, our analysis also allows for the existence of four-dimensional Euclidian transformation rules between inertial systems
We propose here two new transformations between inertial frames that apply for relative velocities g...
We propose here two new transformations between inertial frames that apply for relative velocities g...
We reveal the frame-exchange space-inversion (FESI) symmetry and the frame-exchange time-inversion (...
We present a derivation of the transformation rules between inertial systems making no other assumpt...
Ever since the work of von Ignatowsky circa 1910 it has been known (if not always widely appreciated...
Special relativity theory is well established and confirmed by experiments. This research establishe...
Lorentz transformations between inertial observers, along with Einstein's theory of special relativi...
The Lorentz Transformation is derived from only three simple postulates: (i) a weak kinematical form...
The theory of special relativity (SR) is considered in the framework of classical first-order logic....
As shown earlier, a linear transformation with the same form for the spatial coordinates as the Lore...
We present a new approach to describing transformations between two uniformly accelerated systems, w...
By using the principle of relativity (first postulate), together with new defined nature of the univ...
This book discusses in detail the special theory of relativity without including all the instruments...
Lorentz transformation considers that relative velocity of the frame of references in inertial syste...
The structure of the Lorentz transformations follows purely from the absence of privileged inertial ...
We propose here two new transformations between inertial frames that apply for relative velocities g...
We propose here two new transformations between inertial frames that apply for relative velocities g...
We reveal the frame-exchange space-inversion (FESI) symmetry and the frame-exchange time-inversion (...
We present a derivation of the transformation rules between inertial systems making no other assumpt...
Ever since the work of von Ignatowsky circa 1910 it has been known (if not always widely appreciated...
Special relativity theory is well established and confirmed by experiments. This research establishe...
Lorentz transformations between inertial observers, along with Einstein's theory of special relativi...
The Lorentz Transformation is derived from only three simple postulates: (i) a weak kinematical form...
The theory of special relativity (SR) is considered in the framework of classical first-order logic....
As shown earlier, a linear transformation with the same form for the spatial coordinates as the Lore...
We present a new approach to describing transformations between two uniformly accelerated systems, w...
By using the principle of relativity (first postulate), together with new defined nature of the univ...
This book discusses in detail the special theory of relativity without including all the instruments...
Lorentz transformation considers that relative velocity of the frame of references in inertial syste...
The structure of the Lorentz transformations follows purely from the absence of privileged inertial ...
We propose here two new transformations between inertial frames that apply for relative velocities g...
We propose here two new transformations between inertial frames that apply for relative velocities g...
We reveal the frame-exchange space-inversion (FESI) symmetry and the frame-exchange time-inversion (...