Three Blind Predictions from a Number-Theoretic Framework for Fundamental Physical Constants.

We present three falsifiable numerical predictions derived from a framework that expresses fundamental physical constants as closed-form combinations of Fibonacci numbers, Lucas numbers, triangular numbers, tetrahedral numbers, and primes. This framework has achieved 2,559 exact matches across 27 domains of physics. We specifically predict: (1) the proton charge radius r_p = 0.84075 fm for the CODATA 2026 adjustment; (2) the silicon-28 lattice parameter a = 5.4310206 Å; and (3) the muon electric dipole moment d_mu = 2.51 x 10^{-22}$ e·cm. These predictions are registered to establish temporal priority prior to experimental verification.

Keywords

Fibonacci Physics, Fundamental Physical Constants, Silicon-28 Lattice, Number Theory, CODATA 2026, Triangular Physics, Jacobian Physics, Proton Charge Radius, Lucas Physics, Muon Electric Dipole Moment

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