This upload contains the complete Complex Spacetime (CST) / Complex Dimensional Mechanics (CDM) paper series: 14 papers (Papers 0 through XIII) plus a master verification spreadsheet. The framework derives all of modern physics from a single axiom — physical spacetime is the manifold C³ × R (three complex spatial dimensions, one real time dimension) — with zero free parameters. From one measurement (the electron mass) and two SI unit definitions (c, e), the framework derives: Newton's laws, Maxwell's equations, the Lorentz transformations, the Schrödinger equation, the Einstein field equations, the Standard Model gauge group SU (3) × SU (2) × U (1), all nine charged fermion masses, the Higgs boson mass (125. 312 GeV, observed 125. 25, 0. 0495% deviation), the fine structure constant (1/α = 137. 041, observed 137. 036, 99. 996% accuracy), the Weinberg angle (sin²θW = 0. 23116, observed 0. 23122, 99. 97%), the proton mass (938. 272 MeV, observed 938. 272, 99. 94%), 95 hadron masses at 98. 9% average accuracy, Newton's gravitational constant (G = ℏc/ (9 mₜ² e^24π), derived directly from C³ geometry — the first framework in physics to compute G from geometry), the cosmological constant (exactly zero, from Kähler spectral pairing), the energy conventionally attributed to dark matter as the breathing mode of C³ (ΩDM = 0. 2639, no new particle or substance — geometry oscillating), and cosmic inflation from the 7D Gauss–Bonnet scalaron (nₛ = 0. 965, r = 0. 002, testable by LiteBIRD). The hidden dimensions of C³ are noncompact and their effects are observed everywhere: gauge symmetries are hidden-sector isometries, electromagnetism is the off-diagonal metric, particle masses are hidden-sector momenta, and what cosmologists call dark matter is the breathing mode energy of the hidden-sector geometry. No dark matter particle exists. The series comprises 406 formal theorems across 492 pages. Every result is stated as a theorem with a complete proof. The accompanying Excel spreadsheet contains 709 live formulas across 16 sheets verifying every numerical prediction. Contents: Paper 0 (Overview and Foundation), Paper I (Newtonian Mechanics), Paper II (Electromagnetism), Paper III (Thermodynamics), Paper IV (Special Relativity), Paper V (General Relativity), Paper VI (Quantum Mechanics), Paper VII (Standard Model), Paper VIII (Nuclear Physics), Paper IX (Condensed Matter), Paper X (Superconductivity), Paper XI (Stellar Structure and Cosmology), Paper XII (Fluid Dynamics), Paper XIII (Atomic, Molecular, and Optical Physics), CDMCompletePhysics. xlsx (Master Verification Spreadsheet).
Brian Orrick (Tue,) studied this question.
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: