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THE RELATIVISTIC OBSERVER: Consequences of a Linear Expansion of Spacetime

Article type: Research Article

Authors: Skidmore, Frank M.a | Tanik, Murat M.b; *

Affiliations: [a] Vice President for Research and Development, Analytical AI, LLC, Birmingham, Alabama | [b] Professor, Department of Electrical and Computer Engineering, Birmingham, Alabama

Correspondence: [*] Corresponding author. Email: [email protected]

Keywords: Communication dynamics theory, theory of matter and energy, communication theory, physics, general and special relativity

DOI: 10.3233/JID-210033

Journal: Journal of Integrated Design and Process Science, vol. 25, no. 3-4, pp. 65-133, 2021

Published: 19 December 2022
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Abstract

Communication Dynamics Theory, defined in a companion paper, offers a new approach to understanding Spacetime. In Communication Dynamics Theory, physical reality is assumed to arise from an anisotropic expansion of a one-dimensional communication network. In this paper, we perform a first approximation mathematical transformation of the theory into hyperbolic geometry. The resulting model provides a potential basis for developing insight pertaining to previously poorly understood fundamental constants of physics. As a demonstration, we define a proton, neutron, and electron, demonstrate the emergence of observable space and time, and generate heuristic estimates of Euler’s number, the fine structure constant, and π, as well as geometric descriptions of fundamental forces of nature, occurring as natural consequences of the linear dynamic expansion of Spacetime.

Notes:

“One now has to remember that by our knowledge “matter” is not to be perceived as something primitively given or physically plain. There even are those, and not just a few, who hope to reduce matter to purely electrodynamic processes, which of course would have to be done in a theory more completed than Maxwell’s electrodynamics.” Albert Einstein, to the Prussian Academy of Science, November 15, 1915.

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