We establish by exhaustion the placement of the Standard Model gauge sectors on the eigenspaces of the truncated octahedron's face Laplacian. Theorem 58. 1 (Electroweak Placement): the Eg doublet at eigenvalue 4 is the unique candidate for the electroweak sector: it is the only even-parity doublet, it is annihilated by the torsion operators (no FCNC channel), and it carries 100% square-face content. Theorem 58. 2 (Colour Placement): the T₂g triplet at eigenvalue 7 is the unique candidate for the colour sector: it is the only even triplet, it is torsion-active, and its face content is exactly 100% hexagonal (the square subspace decomposes as A₁g ⊕ Eg ⊕ T₁u only, so T₂g cannot occur on squares), the geometric reading of confinement. Together with the fermion and Higgs placements of Paper #57, all six eigenspaces are uniquely assigned, forcing the group content SU (3) ×SU (2) ×U (1). Result 58. 3 (Weinberg Angle, Tier 2): the on-shell effective mixing angle formula sin²θW = (17 − 3√17) /20 = 0. 23153 matches the LEP effective value at 0. 00σ and satisfies the exact structural identity cos²θW = 2CA√Δ·s₁/ (Δ + CA), where s₁ is the T₁u (r₁) square-face content; the derivation of the mixing weight itself remains open, and Result 58. 3 is stated as a derived formula with an open derivation, not a theorem. Changes in version 2. 0: Theorem 58. 3 is demoted to Result 58. 3 (Tier 2): the v1. 0 proof contained an abandoned intermediate derivation and a bracketed placeholder, both removed; the exact structural identity is stated and the missing normalisation step is named as an open problem, with the formula and its 0. 00σ LEP match unchanged. The "3/13" section title is corrected (stale draft value). Torsion columns now name their operators (Tₕex vs inter-type T, per Paper #57 v2. 0) and the ±2i band entries are corrected to equal-weight superpositions. The MS-bar comparison is corrected to 7. 75σ. A selection-criteria honesty note is added to Section 2. T₂g face content is corrected to exactly 100% hexagonal, strengthening both placement theorems. All corrections are machine-verified in verifyFtFₐudit₂026-07. py and verifyWeinbergₒbstruction₂026-07. py in the repository.
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