Special extension of the relativity of moving bodies: a case study

TL;DR

This paper proposes an extended special relativity framework incorporating discrete space-time expansion, revealing new phenomena related to gravitational acceleration, Earth's heat, galaxy mass, and the nature of time.

Contribution

It introduces a novel extension to special relativity that accounts for space-time expansion and small velocity variations, offering new insights into cosmic and terrestrial phenomena.

Findings

Identifies a natural boundary between high and low kinetic energy systems.

Suggests a new explanation for Earth's remnant heat and nuclear reactions.

Provides a potential solution to the galaxy missing mass problem.

Abstract

The incorporation of an adequate discrete expansion to the formalism of the special relativity that does not allow gravitational acceleration unravels unexplored phenomena. This extension takes into account consequences of a small variation of the limiting velocity for a large scale of time together with the space-time expansion. It determines a natural boundary between physical systems with high and low kinetic energy, provides a new insight for Earth revolution since its formation, indicates a new factor that maintains the earlier remnant heat inside Earth, indicates that the self-sustaining nuclear fission chain reaction that generates Earth major heat is increasing together with the space-time expansion, provides a new lead for the problem of galaxies missing mass, shows how time is entangled with space and expansion and leads to a new interpretation of its characteristics.