After 40 years, MOND's acceleration scale a0 still has no derivation from first principles — it is an empirical constant inserted by hand. Newtonian Fractional-Dimension Gravity (NFDG) identifies an effective spacetime dimension Dₑff ≈ 2. 0–2. 2 in galaxy outer regions, but cannot derive it from first principles either. We present Tetrahedral Emergent Gravity (TEG), which derives both from a single geometric axiom. The axiom: the quantum vacuum in R³ selects tetrahedral network coordination (zfund = 4) by maximising holographic entropy density among all Platonic solids. The derivation chain is algebraic and free of adjustable parameters at every step: zfund = 4 → Dₑff = ln8 ≈ 2. 079 → σUV = 0. 3263 → Nbits = 3 (exact) → σₑff = 0. 1088 Applied to 171 real SPARC galaxies with σₑff = 0. 1088 (zero fitting), TEG achieves RMSE = 0. 138 ± 0. 076 dex, subject to three conventional scales (rᵣef, MJ, ref, N0) documented in Table 1. Performance degrades on gas-dominated dwarf galaxies (log Mb < 9. 5), identified as the primary target for improvement in v8. The Jeans radius rJ ≈ 0. 62 kpc is derived from the LQG volume operator for 4-valent nodes, coarse-grained with Dₑff = ln8, agreeing with the empirical SPARC median to 7%. The universal holographic bit DV - DA = ln2 is an algebraic identity verified to 16 significant figures. The holographic codimension ∂ = 3 - ln8 ≈ 0. 921 is derived algebraically from the tetrahedral axiom and yields H0TEG ≈ 70. 3 km/s/Mpc as a strong conjecture (Open Problem 5). Six open problems are documented with full honesty: the spin-foam derivation of the orientation factor (Op. 1), Gₑff normalization (Op. 2), the effective GR action (Op. 3), the Lorentzian spectral dimension (Op. 4), the cosmological extension (Op. 5), and the derivation of external scales (Op. 6). Dₑff = ln8 is consistent with LQG spectral dimensions and CDT de Sitter phase results. Reproducibility code runs in under 5 minutes on the public SPARC dataset. TEG's claim is a complete algebraic derivation chain from a single vacuum geometry axiom to confirmed effective parameters, with all assumptions and limitations explicitly documented. TEG v7 — **Tetrahedral Emergent Gravity (TEG) ** derives algebraically the effective vacuum dimension \ (D ₄₅₅ = 8\), the Jeans radius, and the holographic codimension from a single geometric axiom: the quantum vacuum in \ (R³\) selects tetrahedral network coordination (\ (z ₅ₔ₍₃ = 4\) ) by maximising holographic entropy density among all Platonic solids. Applied to 171 real SPARC galaxies with zero free parameters, TEG reproduces the observed rotation curves with RMSE = 0. 152 dex using the cubic vacuum profile (independently verified on public SPARC data). The framework includes full validation, an empirical z-sweep confirming \ (z = 4\), explicit connections to Loop Quantum Gravity (LQG) and Causal Dynamical Triangulations (CDT), and eight open problems documented with complete transparency. All model parameters are derived from the single tetrahedral axiom. TEG shows an independent a-posteriori convergence with the recent results on causal rigidity and edge orientations in EPRL vertices by Bianchi, Chen & Gamonal (2026), interpreted as a mutual cross-check rather than a derivation.
miguel angel franco leon (Thu,) studied this question.
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