Motion as Structure-Induced Expansion – A Conceptual Contribution to the LRAE
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 2025Kontakt: andreasjung6502@gmail.com
linearity, Relativity and Structure, LRAE, Metaempirical Framework, Structural Analogy Principles, Light Decoupling, Time, Mass and Structure, Relativity, Universe, Causal Spacetime Dynamics, Temporal Impulse Model, Black Hole Theory, Structural Relativity, Nonlinearity, Local Relative Expansion Theory (LRAE), Structural Field, Structure Cycle, Cosmological Boundary Models, Reality, Dynamic Spacetime, Recursive Structures, Universal Expansion, Einstein, Time Architecture, Element 0
linearity, Relativity and Structure, LRAE, Metaempirical Framework, Structural Analogy Principles, Light Decoupling, Time, Mass and Structure, Relativity, Universe, Causal Spacetime Dynamics, Temporal Impulse Model, Black Hole Theory, Structural Relativity, Nonlinearity, Local Relative Expansion Theory (LRAE), Structural Field, Structure Cycle, Cosmological Boundary Models, Reality, Dynamic Spacetime, Recursive Structures, Universal Expansion, Einstein, Time Architecture, Element 0
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