theorem
proved
sixtyfour_is_2sixth
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IndisputableMonolith.CrossDomain.CardinalitySpectrum on GitHub at line 76.
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73theorem fortyfive_is_gap : (45 : ℕ) = gap45 := rfl
74
75/-- 64 = 2⁶ = 8·8. -/
76theorem sixtyfour_is_2sixth : (64 : ℕ) = 2^6 := by decide
77
78/-- 70 = C(8,4) = max central binomial. -/
79theorem seventy_is_choose_8_4 : (70 : ℕ) = Nat.choose 8 4 := by decide
80
81/-- 125 = D³. -/
82theorem oneTwentyFive_is_Dcubed : (125 : ℕ) = Dconfig^3 := by decide
83
84/-- 216 = 6³. -/
85theorem twoSixteen_is_six_cubed : (216 : ℕ) = cubeFaces^3 := by decide
86
87/-- 256 = 2⁸ = power set of Q₃. -/
88theorem twoFiftySix_is_power_of_2cube : (256 : ℕ) = 2 ^ (2^3) := by decide
89
90/-- 360 = 8·45 (full turn = tick × gap). -/
91theorem threeSixty_is_tick_gap : (360 : ℕ) = eightTick * gap45 := by decide
92
93/-- 3125 = D⁵. -/
94theorem threeOne25_is_D_fifth : (3125 : ℕ) = Dconfig^5 := by decide
95
96/-! ## Non-primitives (integers that don't decompose cleanly) -/
97
98/-- 11 = 2³ + D − 2 is a less-clean decomposition (a prime close to cube). -/
99theorem eleven_check : (11 : ℕ) ≠ Dconfig ∧ (11 : ℕ) ≠ eightTick := by
100 refine ⟨?_, ?_⟩ <;> decide
101
102/-- 13 = F(7), a Fibonacci number (cleanly interpretable via φ-ladder). -/
103theorem thirteen_is_fib_7 : (13 : ℕ) = Nat.fib 7 := by decide
104
105/-! ## The spectrum: list of first 20 canonical RS cardinalities. -/
106