This submission investigates the 7% thermal calibration margin —the single free parameter of the UAT/UPC framework— from three complementary perspectives. Empirical origins: The ~7% value appears across three independent observational scales: (1) the Hubble tension between Planck (67.4 km/s/Mpc) and SH0ES (73.0 km/s/Mpc), a discrepancy of ~8.4% published in peer-reviewed journals; (2) the LIGO calibration uncertainty, documented at 4–7% across observing runs O1–O3 by the LIGO Scientific Collaboration; and (3) a preliminary ~6.6% pipeline fluctuation residual from the author's own validation analyses. Two of these three sources are published and citable; the third is flagged as requiring independent validation. Numerical non-derivability: A brute-force algebraic search demonstrates that the ratio φ*/η = 0.07 cannot be derived from simple combinations of the fundamental constants φ, π, e, or η. The 7% is not a hidden algebraic consequence of the model; it is a genuine empirical input. Physical interpretation: The 7% margin is contextualized within the order–disorder duality of gravitational systems, as exemplified by the Cavendish experiment (gravity as pure ordering force) and the chaotic multiple pendulum (gravity as a search algorithm disrupted by internal noise). The margin quantifies the space between static equilibrium and structureless dispersion —the search space in which the universe explores configurations until stable structures emerge. The submission makes no claim of new physics. It documents the empirical basis for treating the 7% as a legitimate physical parameter rather than an ad hoc fitting factor. The package includes the technical manuscript (LaTeX) and two Python scripts that reproduce all reported results.
Miguel Percudani (Mon,) studied this question.