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Main Authors: Renshaw, Shannon, Renshaw, Kenneth
Format: Recurso digital
Language:English
Published: Zenodo 2026
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Online Access:https://doi.org/10.5281/zenodo.19457045
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author Renshaw, Shannon
Renshaw, Kenneth
author_facet Renshaw, Shannon
Renshaw, Kenneth
contents <p>The standard formulation of fundamental physics treats the constants of nature as given<br> measured parameters whose values are inputs to the equations rather than outputs<br>of a deeper structure. Renshaw Theory inverts this: the geometric substrate of reality<br>determines the constants, not the reverse. The constants are outputs of a prior geometric<br>instantiation. The values of c, ħ, and G are not universal constants across cosmological cycles.<br> They are functions of the compactication geometry inherited at each cycle boundary.<br>The geometry is primary. The constants are derived.</p>
format Recurso digital
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institution Zenodo
language eng
publishDate 2026
publisher Zenodo
record_format zenodo
spellingShingle Sprint Manifolds and Cobordism Dynamics: A Transition Function Framework for Varying Constants and Gauge Group Selection in Cosmological Cycle Models
Renshaw, Shannon
Renshaw, Kenneth
Physical cosmology
Quantum physics
grand unification
M Theory
superstrings
<p>The standard formulation of fundamental physics treats the constants of nature as given<br> measured parameters whose values are inputs to the equations rather than outputs<br>of a deeper structure. Renshaw Theory inverts this: the geometric substrate of reality<br>determines the constants, not the reverse. The constants are outputs of a prior geometric<br>instantiation. The values of c, ħ, and G are not universal constants across cosmological cycles.<br> They are functions of the compactication geometry inherited at each cycle boundary.<br>The geometry is primary. The constants are derived.</p>
title Sprint Manifolds and Cobordism Dynamics: A Transition Function Framework for Varying Constants and Gauge Group Selection in Cosmological Cycle Models
topic Physical cosmology
Quantum physics
grand unification
M Theory
superstrings
url https://doi.org/10.5281/zenodo.19457045