This submission provides a unified synthesis of the UAT/UCP (Unified Applicable Time / Unified Causal Principle) framework and its results in cosmology. The framework introduces a single free parameter —the 7% thermal calibration margin (φ*/η = 0. 07) — from which all other constants are derived: the quantum braking factor (kₑarly = 0. 967), the Ivancho limit (κcrit = 4. 978), the causal overflow (ε = 3. 3%), and the force metric (Rgeom = 0. 2791). We show that the framework resolves the Hubble tension by reducing the effective density of matter and radiation in the early universe, yielding H₀ = 73. 0 km/s/Mpc and a sound horizon rd ≈ 141 Mpc. The vacuum energy density is derived as Λ = EPlanck × κcrit^ (φ/2 + 3/4) = 2. 50 × 10⁻¹²² MPl⁴, matching Planck 2018 within ~1. 2%. The dynamic extension —causal membrane dynamics— reveals that the universe operates on a truncated phase cycle of 348. 12°, expending 3. 3% of its energy per cycle to sustain expansion. A Monte Carlo simulation with 10, 000 iterations validates the non-random nature of the force metric (p < 0. 001). The document presents the full set of falsifiable predictions (three-depth experiment, causal overflow timing, 8-coil replication, Euclid/Roman/DESI-2) and explicitly acknowledges the framework's limitations. The UAT/UCP framework is a phenomenological model under development, not a validated theory. Its value lies in the internal consistency of its constants and the specificity of its testable predictions. The package includes the LaTeX manuscript.
Miguel Percudani (Sat,) studied this question.