This work presents a geometric model of spacetime as a mesh of tetrahedra with elastic properties. The BIC Principle (Balance and Interchange of Configuration) is introduced as the thermodynamic engine that allows an informational surplus (1 + 1 = 3) without violating energy conservation. It is demonstrated that the master torsion angle δ = 2. 7° optimizes the geometric gap (θgap ≈ 7. 36°) to generate a unit of Syntropic Shannon (ShS), unifying solid mechanics with the neutron-proton mass difference, the electron mass, the fine structure constant, and cosmic expansion. The model predicts the masses of the proton, neutron, electron, and tetraquarks with accuracies from 96. 5% to 99. 999%, and offers a geometric explanation for gravity (subdivision gradient of the mesh), dark energy (elastic return), the photon (elastic shear wave), electric charge (torsion asymmetry), and the weak interaction (angular relaxation of the vertex).
braian ezequiel vera (Mon,) studied this question.
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: