Motion as Structure-Induced Expansion – A Conceptual Contribution to the LRAE

This paper introduces a novel interpretation of motion within the framework of the Theory of Locally Relative Expansion Units (LRAE). Unlike classical mechanics, motion is here described as a cyclic reorganization of the structure field f(xμ)f(x^\mu)f(xμ). The frequency of this restructuring depends on the impulse access TTT, the linearity LLL (interpreted as mass), and the local deformability ϵ(xμ)\epsilon(x^\mu)ϵ(xμ). Greater mass results in slower restructuring cycles — a structural foundation for inertia. Moreover, motion on a microscopic scale contributes cumulatively to the observable cosmic expansion. Acceleration is redefined: not as the addition of energy, but as an increase in structural frequency. This model offers a structurally grounded, causally coherent alternative to classical dynamic theories.

Authorship: Andreas Jung
 In collaboration with: ChatGPT (OpenAI)
  Lizenz: Creative Commons Attribution Non Commercial No Derivatives 4.0 International (CC BY-NC-ND 4.0)
 Published: July 2025
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