The structure of the Lorentz transformations follows purely from the absence of privileged inertial reference frames and the group structure of the transformations, two assumptions that are simple and physically necessary. The existence of an invariant speed is \textit{not} a necessary assumption, and in fact is a consequence of the principle of relativity (though the finite value of this speed must, of course, be obtained from experiment). Von Ignatowsky derived this result in 1911, but it is still not widely known and is absent from most textbooks. Here we present a completely elementary proof of the result, suitable for use in an introductory course in special relativity
We present a didactic derivation of the special theory of relativity in which Lorentz transformation...
We show that a derivation of the Lorentz-Einstein transformation based on length contraction or on t...
The role of the light postulate in special relativity is reexamined. The existing theory of relativi...
It has been shown that Lorentz-like transformations with an invariant speed can be derived based on ...
Ever since the work of von Ignatowsky circa 1910 it has been known (if not always widely appreciated...
It is still perhaps not widely appreciated that in 1905 Einstein used his postulate concerning the &...
In this paper, we will explain and prove in detail Einstein's postulate with respect to the invarian...
In the paper a few problems relating to the special relativity theory are considered, real SRT probl...
We reveal the frame-exchange space-inversion (FESI) symmetry and the frame-exchange time-inversion (...
We propose here two new transformations between inertial frames that apply for relative velocities g...
The Lorentz transformation is entirely derived from length contraction, itself established through t...
Lorentz transformations between inertial observers, along with Einstein's theory of special relativi...
The underlying basis for the predictions of non-simultaneity and time dilation in relativity theory ...
We propose here two new transformations between inertial frames that apply for relative velocities g...
Abstract—Special Relativity is traditionally based on the two postulates introduced in Einstein’s 19...
We present a didactic derivation of the special theory of relativity in which Lorentz transformation...
We show that a derivation of the Lorentz-Einstein transformation based on length contraction or on t...
The role of the light postulate in special relativity is reexamined. The existing theory of relativi...
It has been shown that Lorentz-like transformations with an invariant speed can be derived based on ...
Ever since the work of von Ignatowsky circa 1910 it has been known (if not always widely appreciated...
It is still perhaps not widely appreciated that in 1905 Einstein used his postulate concerning the &...
In this paper, we will explain and prove in detail Einstein's postulate with respect to the invarian...
In the paper a few problems relating to the special relativity theory are considered, real SRT probl...
We reveal the frame-exchange space-inversion (FESI) symmetry and the frame-exchange time-inversion (...
We propose here two new transformations between inertial frames that apply for relative velocities g...
The Lorentz transformation is entirely derived from length contraction, itself established through t...
Lorentz transformations between inertial observers, along with Einstein's theory of special relativi...
The underlying basis for the predictions of non-simultaneity and time dilation in relativity theory ...
We propose here two new transformations between inertial frames that apply for relative velocities g...
Abstract—Special Relativity is traditionally based on the two postulates introduced in Einstein’s 19...
We present a didactic derivation of the special theory of relativity in which Lorentz transformation...
We show that a derivation of the Lorentz-Einstein transformation based on length contraction or on t...
The role of the light postulate in special relativity is reexamined. The existing theory of relativi...