Geometric Scaling Laws in the Universe: Emergent Relations from Polyhedral Symmetry
Geometric Scaling Laws in the Universe: Emergent Relations from Polyhedral Symmetry
10.5281/zenodo.18488706 We present geometric scaling relations that emerge from poly-hedral symmetry in cosmological and astrophysical systems. Thestrongest evidence comes from: (1) Characteristic void scale L∗ =210 ± 5 Mpc (8.2σ, p < 10−15), (2) Icosahedral symmetry in large-scale structure (Z = 8.2, 7.5σ, p = 2 × 10−16), (3) Galactic scalinglaw R∗/Rlast = √3/4 = 0.4330 for SPARC galaxies (4.5σ), (4) Darkenergy parameter w0 = −0.771 matching DESI measurements. Theserelations involve geometric ratios κ1 = 8/9, κ2 = 1/3, κ3 = 1/7 butdo not claim to predict fundamental constants like α, ℏ, G, c with1% accuracy. The combined statistical significance exceeds 5σ, estab-lishing these as genuine physical relationships rather than numericalcoincidences.
Icosahedral Symmetry in Large-Scale Structure, Geometric Patterns in Na- ture
Icosahedral Symmetry in Large-Scale Structure, Geometric Patterns in Na- ture
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