We present Impedance Mechanics, a framework in which the mechanical definition of time t = ∫s dx — where s (x) is the metric slowness of the vacuum substrate — yields the moto-temporal identity v·vₜ = 1 as its immediate consequence. Applied to a six-degree-of-freedom micropolar elastic substrate characterized by three independent constitutive primitives (Yᵥ, s₀, Z₀), this foundation generates the known laws of physics as theorems with no free parameters. The fine structure constant α = Z₀/ (2Rₖ) is derivable once ℏ is established; the topological loop Lₜₒₚₒ = √ (8π) ·lₚ follows from temporal self-consistency. The derivations include: Newton's constant G = c⁴/ (8πYᵥ) ; the Equivalence Principle; all eight postulates of quantum mechanics (including the Born rule P = |ψ|², the exact coefficient ℏ/2 of the uncertainty principle, and the physical origin of the imaginary unit i) ; Maxwell's equations from the Z₀ coupling; the Standard Model gauge group U (1) ×SU (2) ×SU (3) as the automorphism group of the substrate's internal geometry; left-handed chirality of the weak force as a theorem of the positive-energy condition; and quark confinement as a theorem of the commutator structure of the confined degrees of freedom. The complete particle mass spectrum follows from the confinement theorem, which forces two complementary Koide formulae: free propagating excitations satisfy Q = 2/3 (leptons) ; color-neutral bound states satisfy Q = 1/3 (hadrons). All three charged lepton masses are predicted to better than 0. 01%. The neutrino is identified as the torsional gear-play of the substrate (Volumetric Slip ζ = γ^ (1/18) ), giving the three neutrino masses and oscillation splittings. The QCD confinement scale ΛQCD = πmₑ/ (αγ^ (1/6) ) = 217. 08 MeV is within 0. 04% of the world average. The Universal Refractive Index γ = H_₀, local/H_₀, CMB = 1. 083179160 simultaneously resolves the Hubble tension (error 0. 001%), the MOND acceleration threshold (error 0. 10%), and identifies dark matter as longitudinal substrate polarization and dark energy as the substrate's restorative elastic pressure. The substrate exhibits shear-thinning viscoelastic behavior: γ (t) = 1 + K/t with K = 1. 2067 Gyr. Six specific falsifiable predictions are made, including the secular drift of γ at 5. 7×10⁻¹² yr⁻¹ and the linear growth of the Hubble tension with redshift. Keywords: vacuum impedance, metric slowness, mechanical definition of time, temporal momentum, inertia, equivalence principle, Hubble tension, dark matter, gravity as timeshift, moto-temporal complement, unified field theory, micropolar substrate
Kenneth McGuire (Wed,) studied this question.