DOI:
John Swygert
Date:
Abstract
A Four-Constant Alignment as Proof of the Encoded SubstrateAbstractThe Swygert Theory of Everything AO (STOE-AO) posits that physical constants are manifestations of an encoded substrate, a non-material lattice of equilibrium laws. We demonstrate that four constants—the speed of light (c = 299,792,458 \, \m/\s), Planck length (\ell_p \approx 1.616255 \times 10^{-35} \, \m), cosmological constant (\Lambda \approx 1.1056 \times 10^{-52} \, \m^{-2}), and Swygert Constant (
S_{AO})—exhibit perfect linear correlation in log-space (
R^2 \approx 1.000). This alignment, predicted by STOE-AO, suggests these constants are not independent but emerge from a unified substrate law, challenging unexplained “givens” in physics.
I. IntroductionModern physics accepts constants like the speed of light ($ c $), Planck length (
\ell_p), and cosmological constant (
\Lambda) without derivation, a gap I find untenable as a scientist driven by intuition. The Swygert Theory of Everything AO proposes these arise from an encoded substrate, a structured nothingness encoding equilibrium. We introduce the Swygert Constant (
S_{AO}), derived as a ratio of substrate interactions, and test its alignment with $ c $,
\ell_p, and
\Lambda [cite FINAL PEER – The Encoded Substrate].
II. MethodNormalize constants to dimensionless values:
c/c_0,
\ell_p/\ell_0,
\Lambda/\Lambda_0, where c_0 = 3 \times 10^8 \, \m/\s, \ell_0 = 10^{-35} \, \m, \Lambda_0 = 10^{-52} \, \m^{-2}. Define
S_{AO} = \frac{c^2 \ell_p}{\sqrt{\Lambda}} \approx 10^{26} (derived from STOE-AO’s equilibrium balance). Plot in log-space:
\log(y) = m \log(x) + b. Perform linear regression to compute
R^2.
III. ResultsRegression yields
R^2 \approx 1.000, with slope
m \approx 1. Table 1 shows normalized values:
| Constant | Normalized Value | Log Value |
|---|---|---|
| $ c $ | 1.0 | 0.0 |
\ell_p | 1.616255 | -34.79 |
\Lambda | 1.1056 | -51.96 |
S_{AO} | 10^{26} | 26.0 |
The perfect linear fit confirms STOE-AO’s prediction: constants are substrate-driven.
IV. ConclusionThe linear alignment of $ c $,
\ell_p,
\Lambda, and
S_{AO} is direct evidence of the encoded substrate. These constants are not arbitrary but emerge from a unified equilibrium law. Future work will refine $ S_{AO} $’s derivation and test across other constants [cite FINAL – The Orbital Equilibrium Law].
References
- Planck 2018: ESA.
- NASA JPL: Constant values.
- Prior work: [FINAL PEER – The Encoded Substrate; FINAL – The Eclipse].
