Nuprl Lemma : sum-of-three-cubes-iff-4

This solution to the problem of writing 33 as the sum of three cubes
was found around March 9, 2019 by Andrew Booker using 15 core-years
computation time (over three weeks real time) on a super-computer in Bristol.

The smallest number for which it is unknown whether it is the sum of three
cubes is now 42 (and the next is 114).⋅

∀k:ℕ
  (∃a,b,c:ℤ. (((a * a * a) + (b * b * b) + (c * c * c)) = k ∈ ℤ)
  ⇐⇒ ∃d,n:ℕ
       ((((d * d) + (3 * n * n) rem 4) = 0 ∈ ℤ)

       ∧ (∃c:ℤ. (((d * (((d * d) + (3 * n * n)) ÷ 4)) - k) = (c * c * c) ∈ ℤ))))

Proof

Definitions occuring in Statement : nat: ℕ, all: ∀x:A. B[x], exists: ∃x:A. B[x], iff: P ⇐⇒ Q, and: P ∧ Q, remainder: n rem m, divide: n ÷ m, multiply: n * m, subtract: n - m, add: n + m, natural_number: $n, int: ℤ, equal: s = t ∈ T
Definitions unfolded in proof : all: ∀x:A. B[x], member: t ∈ T, iff: P ⇐⇒ Q, and: P ∧ Q, implies: P ⇒ Q, exists: ∃x:A. B[x], subtype_rel: A ⊆r B, nat: ℕ, uall: ∀[x:A]. B[x], so_lambda: λ₂x.t[x], so_apply: x[s], uimplies: b supposing a, rev_implies: P ⇐ Q, ge: i ≥ j , decidable: Dec(P), or: P ∨ Q, not: ¬A, satisfiable_int_formula: satisfiable_int_formula(fmla), false: False, top: Top, prop: ℙ, sq_type: SQType(T), guard: {T}, int_nzero: ℤ^-^o, true: True, nequal: a ≠ b ∈ T , cand: A c∧ B, uiff: uiff(P;Q)
Lemmas referenced : sum-of-three-cubes-iff-3, istype-int, int_subtype_base, set_subtype_base, le_wf, istype-nat, subtype_base_sq, nat_properties, decidable__equal_int, full-omega-unsat, intformand_wf, intformnot_wf, intformeq_wf, itermAdd_wf, itermMultiply_wf, itermVar_wf, itermConstant_wf, itermSubtract_wf, int_formula_prop_and_lemma, istype-void, int_formula_prop_not_lemma, int_formula_prop_eq_lemma, int_term_value_add_lemma, int_term_value_mul_lemma, int_term_value_var_lemma, int_term_value_constant_lemma, int_term_value_subtract_lemma, int_formula_prop_wf, div-cancel2, nequal_wf, rem-exact, divide_wfa, div_rem_sum, add-is-int-iff, multiply-is-int-iff, false_wf
Rules used in proof : cut, introduction, extract_by_obid, sqequalSubstitution, sqequalTransitivity, computationStep, sqequalReflexivity, Error :lambdaFormation_alt, hypothesis, sqequalHypSubstitution, dependent_functionElimination, thin, hypothesisEquality, independent_pairFormation, productElimination, independent_functionElimination, sqequalRule, Error :productIsType, because_Cache, Error :equalityIstype, baseApply, closedConclusion, baseClosed, applyEquality, isectElimination, intEquality, Error :lambdaEquality_alt, natural_numberEquality, Error :inhabitedIsType, independent_isectElimination, sqequalBase, equalitySymmetry, Error :dependent_pairFormation_alt, equalityTransitivity, instantiate, cumulativity, setElimination, rename, unionElimination, approximateComputation, int_eqEquality, Error :isect_memberEquality_alt, voidElimination, Error :universeIsType, Error :dependent_set_memberEquality_alt, addEquality, multiplyEquality, pointwiseFunctionality, promote_hyp

Latex:
\mforall{}k:\mBbbN{} (\mexists{}a,b,c:\mBbbZ{}. (((a * a * a) + (b * b * b) + (c * c * c)) = k) \mLeftarrow{}{}\mRightarrow{} \mexists{}d,n:\mBbbN{} ((((d * d) + (3 * n * n) rem 4) = 0) \mwedge{} (\mexists{}c:\mBbbZ{}. (((d * (((d * d) + (3 * n * n)) \mdiv{} 4)) - k) = (c * c * c))))) Date html generated: 2019_06_20-PM-02_42_32 Last ObjectModification: 2019_03_16-PM-01_00_21 Theory : num_thy_1 Home Index