In the Fourteenth Zero-Free-Parameter Derivation (ZFPD) of the KnoWellian Universe Theory (KUT), we eliminate the need for the manual parameterization of the Weak Mixing Angle (Weinberg Angle, W) found in the orthodox Glashow-Weinberg-Salam (GWS) electroweak model. Standard Model physics treats the empirically measured mixing ratio of electromagnetic and weak forces (² W 0. 231) as a brute fact, offering no fundamental explanation for its specific magnitude. By applying the Ontological Grammar Shift, this paper reframes electroweak unification not as the breaking of a primordial symmetry, but as the Geometric Resolving Boundary of the Abraxian Engine rendering upon the Cairo Q-Lattice. We demonstrate that the Weinberg Angle is not a tuned parameter; rather, it is the "Dyadic Phase-Shear"—the exact topological friction generated when the rational longitudinal windings (n=2) of the fundamental (3, 2) Torus Knot grind against the irrational pentagonal vacuum floor. Utilizing the established KnoWellian Offset (₊ₖ 0. 118), we derive the bare topological ground state of the weak mixing angle as exactly ² ₖ (₊ₔₓ) = 2 ₊ₖ 0. 236, using absolute zero free parameters. This derivation proves that the mass generation of the W and Z bosons is not an arbitrary mechanism, but a mandatory geometric resistance bridging the rational knot and the irrational lattice. Keywords KnoWellian Universe Theory, KUT, Zero-Free-Parameter Derivation, ZFPD, Weak Mixing Angle, Weinberg Angle, Electroweak Unification, Dyadic Phase-Shear, Abraxian Engine, Cairo Q-Lattice, KnoWellian Offset, Torus Knot Topology, Standard Model, W and Z Bosons, Glashow-Weinberg-Salam Model, Foundational Physics, Cosmological Mechanics
David Noel Lynch (Fri,) studied this question.