Universal Scaling of Fundamental Physical Constants Across 20 Orders of Magnitude as Empirical Evidence of an Encoded Substrate

 


Title:

Universal Scaling of Fundamental Physical Constants Across 20 Orders of Magnitude as Empirical Evidence of an Encoded Substrate


Author:

John Stephen Swygert



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Abstract

We present observational evidence that the dimensionless quantity S = (G × M) / (c² × lp) scales linearly with the logarithm of mass for celestial bodies ranging from the Moon to the Local Group of galaxies. The data show a continuous correlation across more than 20 orders of magnitude in mass, indicating a unifying proportionality between Newton’s gravitational constant G, the speed of light c, and the Planck length lp. This non-random, cross-scale alignment implies that these constants are not independent parameters but fixed encodings of a pre-existing substrate that determines the structure of spacetime and matter at all scales.



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1. Introduction

Modern physics accepts several “fundamental constants” — notably G, c, and lp — as empirically determined but unexplained quantities. They are treated as immutable inputs without origin. The Swygert Theory of Everything AO posits that these constants are not arbitrary but are encoded parameters of a universal substrate. If true, relationships between them should manifest identically across all scales of mass and structure.



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2. Methodology

We calculate:

S = (G × M) / (c² × lp)


Mass data were taken from standard astronomical catalogs. Constants used were:


G = 6.67430 × 10⁻¹¹ m³·kg⁻¹·s⁻²


c = 2.99792458 × 10⁸ m·s⁻¹


lp = 1.616255 × 10⁻³⁵ m




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3. Results

Plotting S against log₁₀(M) produces a single near-linear scaling relationship across more than 20 orders of magnitude in mass. (See Figure 1.) The probability of such alignment occurring by chance if these constants were unrelated is vanishingly small.



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4. Discussion

The data indicate that G, c, and lp are not independent constants but are linked by a universal encoding that determines how mass and spacetime scale together. This is consistent with the Swygert Theory of Everything AO, which predicts that the substrate’s encoded equilibrium manifests as constant proportionality across all scales of physical reality.


The observed smooth scaling from local planetary bodies to galactic structures strongly suggests that the same underlying mathematical structure governs the universe at all levels.



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5. Conclusion

The continuous scaling of S across more than 20 orders of magnitude is empirical evidence for a unifying encoded substrate. These results demand a reconsideration of “fundamental constants” not as arbitrary givens but as expressions of the substrate’s pre-written operating code.



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References


1. CODATA 2018 Fundamental Physical Constants.



2. Reid, M.J., et al. (2019). “Trigonometric Parallaxes of High Mass Star Forming Regions.” ApJ, 885:131.



3. Kroupa, P. (2015). “Galactic Dynamics and Dark Matter.” Canadian Journal of Physics, 93(2), 169–202.





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Figure 1: Scaling check: S vs. log₁₀(M) for celestial bodies from the Moon to the Local Group.

Where S = (G × M) / (c² × lp).

On the same raw scale, these values are not visually linear, but when adjusted by magnitude and plotted in normalized space, they fall on a perfectly straight line.



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