A dual first-postulate basis for special relativity
Abstract
An overlooked straightforward application of velocity reciprocity to a triplet of inertial frames in collinear motion identifies the ratio of their cyclic relative velocities' sum to the negative product as a cosmic invariant, whose inverse square root corresponds to a universal limit speed. A logical indeterminacy of the ratio equation establishes the repeatedly observed unchanged speed of stellar light as one instance of this universal limit speed. This formally renders the second postulate redundant. The ratio equation furthermore enables the limit speed to be quantified, in principle, independently of a limit speed signal. Assuming negligible gravitational fields, two deep-space vehicles in non-collinear motion could measure with only a single clock the limit speed against the speed of light, without requiring these speeds to be identical. Moreover, the cosmic invariant (from dynamics, equal to the mass-to-energy ratio) emerges explicitly as a function of signal response time ratios between three collinear vehicles, multiplied by the inverse square of the velocity of whatever arbitrary signal might be used.
Cite
@article{arxiv.1804.03502,
title = {A dual first-postulate basis for special relativity},
author = {Brian Coleman},
journal= {arXiv preprint arXiv:1804.03502},
year = {2020}
}
Comments
The current replacement merely remedies typing errors and diagram annotation typos resulting from transcription of 2003 source Word files to LaTeX format. No nontrivial changes have been made. A link to a 2002 submitted Maple solution script has been added