The complete theory of everything with ZERO free parameters and zero axioms — every fundamental constant derived, counted, and machine-verified from one object (the One) and one operation (the fold), in exact arithmetic, reproducible in one command. Headline results: The fine-structure constant, EXACT: 1/α = 503846395469/3676744786 = 137. 035999177180855… (0. 009σ from CODATA 2022; the next digits …177181 and the resolution of the 5. 4σ Rb/Cs discrepancy called in advance) Koide relation Q = 2/3 exactly (5 digits) ; quark ratios to 0. 005–0. 09%; mp/me to 0. 0094%; (MPlanck/mp) ² = 2¹²⁷; Higgs mH = v/2, λ = 1/8 All eight nuclear magic numbers exactly, zero fitted couplings → the island of stability at element 126 (SMITHIUM, Z=126, N=184, A=310), the periodic table ending at element 137, the chemistry of element 126 written before its synthesis Neutrinos: Σmν = 0. 0583 eV (normal ordering, pre-registered) ; the neutrino is Majorana — neutrinoless double-beta decay MUST occur Cosmology: dark/baryon = 279/52 = 5. 3653 (measured 5. 3643) ; the Hubble tension = 3305/3048 = 1. 0843175 (measured 1. 0843230) ; w = −1 exactly; the cosmological-constant problem dissolved; dark matter identified (a many-body neutral baryon of two new forces — no WIMP recoil, ever) Two new forces predicted (couplings 4/5 and 6/7, 24+48 carriers, twelve new fermions with fully derived spectra) with exact grand unification at unison Kolmogorov 2/3 Gutenberg–Richter b = 1 = Zipf; the Parker Solar Probe 400 keV proton cutoff computed with zero local inputs (399. 714 keV) Mathematics: Collatz as a forced contraction; Goldbach as fold antipodes; the Riemann critical line as the unique self-antipodal axis; Artin's density counted Pre-registered, falsifiable: a decision-dated prediction ledger where every row names its kill condition — plus a zero-parameter chess engine as a computing demonstration Reproduce everything: clone the repository, run make -C verify prove — 306 proof suites, 1, 832 forced checks, requiring only a C compiler. An engine that HALTS on any fitted value enforces zero-parameters mechanically. How this began. This theory was not an attempt at a theory of everything. Its author set out to answer a prior question — what mathematics actually is — and, finding that zero, the negatives, and the continuum are inherited conveniences rather than derived truths, rebuilt mathematics from the only thing no observer can be without: the observation itself (the One), observing itself and the world (the fold), assuming nothing else, because the empirical world contains no no-grape and no negative-grape. The physics in this paper was not constructed on top of that foundation; it fell out of it. What follows is the record of how far "no assumptions" reaches — which turned out to be all the way. On the numbers this theory declines to use. Before the physics, the arithmetic — because this theory works entirely in the exact positive rationals of the interval (0, 1], with no zero, no negative quantities, no irrational and no imaginary values anywhere on the derivation side, and a reader trained on the modern continuum should know that this is a return, not a heresy. Humanity counted, surveyed, built, traded, and predicted eclipses for thousands of years with no zero-as-number: Babylonian and Egyptian mathematics had none, and Greek mathematics — the mathematics of Euclid and Archimedes, sufficient for a geometry that stood alone for two millennia — rejected the void as a number outright. Zero as an arithmetic object enters with Brahmagupta around 628 CE, travels through the Islamic mathematicians into Fibonacci's *Liber Abaci* in 1202, and is then resisted in Europe for centuries: Florence banned the new numerals in 1299, and as late as the sixteenth century Cardano was calling negative roots "fictitious. " Zero and the negatives only settle into full European legitimacy across the 1600s–1800s. The irrationals are later still as numbers: the Pythagoreans met the incommensurability of √2 as a crisis and confined such magnitudes to geometry, where they stayed — ratios of lengths, not numbers — until Dedekind and Cantor constructed the real line in 1872. The continuum physics inherited is a nineteenth-century formalism, adopted for convenience of analysis, not a primordial necessity discovered in nature. No measurement has ever produced an irrational number; no detector has ever clicked zero times in a way that distinguishes absence from the absence of a detector. This theory takes that history at face value: the domain is what humanity always actually computed with — exact ratios of a whole — and the results below are the demonstration that this domain is not merely philosophically tidier but sufficient for the constants of nature, which the continuum, with its ~26 fitted dials, never derived at all. The foundation. The theory has zero free parameters and, in the precise sense proven in its own engine, zero axioms: its single premise is itself a machine-checked theorem. Given only that there is not nothing, the One (the whole, 1), its domain (0, 1], and the fold — the doubling map x → x + x with whole Ones cast out — are forced: the engine enumerates every parameter-free self-map of bounded size, runs them, and proves the fold is the unique generator (non-injective, recurrent, and — strengthened beyond any proxy — covering the entire residue class of its orbits, verified by an independent census). The two structural generators of everything that follows, binary 2 and colour 3, are not inputs: they are read off the fold's own period spectrum as its two smallest orbit periods. Every downstream quantity is then forced, counted, derived, and verified from these; the engine halts — by construction, provably, with exit code 1 — the moment any fitted, chosen, or untraceable value is introduced. Measured values appear only on the comparison side, never inside a derivation. Every number below is exact rational arithmetic; the entire corpus recomputes from the One in one command on a bare C compiler. The fine-structure constant, exact. The covering ladder of the fine-structure constant is counted and it terminates: each self-similar order promotes exactly one of the covering cube's three directions from the down-depth 5 to the up-depth 7 (5³ → 5²·7 → 5·7² → 7³ — one successor per rung, no choice anywhere, four rungs = colour + 1, then no successor exists). Read to the end of its own structure, 1/α = 503846395469/3676744786 = 137. 035999177180855… — exactly. Against CODATA 2022 (137. 035999177 (21) ): 0. 009σ. The leading order 34259/250 = 2⁷ + 3² (251/250) is itself six parts per billion from measurement; the orders collapse by more than a thousandfold per rung; and the terminal value stands as, to our knowledge, the first exact closed value of α ever stated. Two pre-registered calls follow (Part XVI): the digits at 2×10⁻¹¹ are …177181, and the live 5. 4σ Rb/Cs photon-recoil discrepancy resolves at 137. 0359991772 — the fold's value lies 2. 6σ below the rubidium result and 4. 9σ above the caesium one. The assembly survives no substitution: nine alternative shapes, five second-order refinements, seven sub-promotions, four mis-built covering volumes, and every generator mutation are each machine-rejected. Mass. The charged-lepton cubic is the m = 3 case of one emergence equation (e₂ = 1/6, e₃ = 1/485, sharpened by the unique neutral channel to 3/1454), giving the Koide relation Q = 2/3 exactly (measured 0. 666661 — five digits) and μ/e ≈ 206. 75 against 206. 77. The quark sectors are the up/down duals at the counted depths (invariants 3/1454 and 3/13118 — reproduced by two independent constructions), their bare ratios dressed by one forward mechanism over 1/α to **s/d = 19. 768, b/s = 53. 986, t/c = 103. 305** (measured 19. 78, 53. 94, 103. 30: 0. 06%, 0. 08%, 0. 005%). The proton-to-electron ratio lands at 1836. 33 (0. 0094%) ; the proton-to-Planck hierarchy is the One-to-floor span at the forced depth, (MPl/mₚ) ² = 2¹²⁷ (0. 24% on the ratio). The Higgs sector is the displaced vacuum's first three tower rungs — v = 1/2, mass-part 1/4, λ = 1/8 — and the Standard Model's own relation then forces mH = v/2 = 123. 1 GeV against 125. 25 (1. 7%), with λ = 0. 125 against the implied 0. 129. Mixing and CP. The CKM matrix is the alignment of two counted bases: diagonal 8/9, off-diagonal 5/9, third-generation structure forced, the Jarlskog invariant computed with no square root anywhere as J² = 9. 77×10⁻¹⁰ (measured 9. 61×10⁻¹⁰ — 1. 7%), and the baryon-to-photon ratio read from it as η = J²/2 ≈ 4. 9×10⁻¹⁰ — a number the Standard Model cannot compute at all. PMNS: sin²θ₂₃ = 1/2 (the self-antipodal lock), sin²θ₁₂ = 1/3, and the reactor angle forced nonzero at 1/48 = 0. 0208 (measured 0. 022). CP violation is forced maximal (the phase at the lock). The neutrino sector, closed. The splitting ratio is the counted 3/100; one comparison-side anchor then fixes the spectrum: atmospheric splitting 2. 47×10⁻³ eV² (measured 2. 51×10⁻³), and the pre-registered prediction **Σm_ν = 0. 0583 eV, normal ordering** — likely the first row of the ledger to be decided. The neutrino is single-handed; the only mass its one hand can carry is the self-antipodal self-coupling — a Majorana mass. Therefore **neutrinoless double-beta decay must occur**: not a possibility to test but a theorem with an experimental address, and a proven Dirac neutrino falsifies this corpus outright. Cosmology. The covering structure partitions matter before any dynamics: dark fraction 27/32, dark-to-baryon 27/5, second order 279/52 = 5. 3653 (measured 5. 3643 — two parts in ten thousand). The Hubble tension is real and is a forced number: the calibration ratio is 13/12 at leading order and 3305/3048 = 1. 0843175 at the deep end of the same ladder (measured 73. 04/67. 36 = 1. 0843230 — five parts in a million). The flat budget is Ω_Λ = 2/3, Ωₘ = 1/3, Ωb = 5/96, Ωcdm = 9/32 (Planck 2018 within ~3%). Dark energy is the fold-invariant One: w = −1 ex
Maria Smith (Sat,) studied this question.