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Auteur principal: Crouse, David
Format: Preprint
Publié: 2024
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Accès en ligne:https://arxiv.org/abs/2410.08234
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author Crouse, David
author_facet Crouse, David
contents In this paper -- Part 2 of our series on discrete spacetime -- we first provide a review of the previously published Part 1 that included the first important steps in the development of a new model of discrete spacetime (DST): the Isotropic Model of DST. The review starts with a description of the most important and oft-cited problems associated with DST models and how the Isotropic Model of DST solves these problems. We then summarize the derivations of the equations describing time dilation, length contraction and spatial distances in DST that were developed in Part 1. Following the review is the main part of the paper that includes the development of the DST versions of the Lorentz transformation equations and the derivation of the relativistic velocity addition rule, the construction of Minkowski spacetime in DST, and the resolution of Zeno's Stadium Paradox. Important physical phenomena unique to the Isotropic Model are discussed: the fact that light experiences space and time in DST, and the uncertainty in the position of a particle upon the sudden termination of its travel.
format Preprint
id arxiv_https___arxiv_org_abs_2410_08234
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle On the Nature of Discrete Space-Time Part 2: Special Relativity in Discrete Space-Time
Crouse, David
General Physics
In this paper -- Part 2 of our series on discrete spacetime -- we first provide a review of the previously published Part 1 that included the first important steps in the development of a new model of discrete spacetime (DST): the Isotropic Model of DST. The review starts with a description of the most important and oft-cited problems associated with DST models and how the Isotropic Model of DST solves these problems. We then summarize the derivations of the equations describing time dilation, length contraction and spatial distances in DST that were developed in Part 1. Following the review is the main part of the paper that includes the development of the DST versions of the Lorentz transformation equations and the derivation of the relativistic velocity addition rule, the construction of Minkowski spacetime in DST, and the resolution of Zeno's Stadium Paradox. Important physical phenomena unique to the Isotropic Model are discussed: the fact that light experiences space and time in DST, and the uncertainty in the position of a particle upon the sudden termination of its travel.
title On the Nature of Discrete Space-Time Part 2: Special Relativity in Discrete Space-Time
topic General Physics
url https://arxiv.org/abs/2410.08234