This paper does not intend to replace the established Standard Model of particle physics (SM), but rather to complement its phenomenal success by providing a geometric derivation of its fundamental free parameters. While the Standard Model excellently describes the interactions of matter, its approximately 26 constants of nature remain without a theoretical foundation. We introduce the Emergent Resonance Brane (ERB) Framework as a formal decipherment of these constants, demonstrating that masses, mixing angles, and coupling constants are the inevitable stationary solutions of a 3/2-brane collision. By anchoring the vacuum to a Hexagonal Seed (= 1. 5), we derive the particle spectrum as the eigenvalues of a resonant S² S² manifold. The framework replaces the empirical Yukawa couplings of the SM with topological Bessel resonances and identifies the Top Quark mass precisely as the entropic saturation limit (/e) of the resonant cavity. Furthermore, the Jarlskog Invariant is identified not as a mere empirical value, but as the primordial mechanical torsion of the brane collision, which clocks the flow of time via 'Hessian Friction'. Finally, we resolve the 'Vacuum Catastrophe' (10^120 discrepancy) by defining Dark Energy as a 10-dimensional transverse leak within the 12 holonomic degrees of freedom. Achieving a global mean consistency of 99. 4% compared to CODATA values, this model demonstrates that the Standard Model is the highly effective description of a geometrically sealed machine, whose numerical constants are strictly dictated by the topology of a 3/2-resonance.
Daniel Speckmann (Fri,) studied this question.