Nuprl Lemma : exp_difference

Nuprl Lemma : exp_difference_factor

∀[n:ℕ⁺]. ∀[x,y:ℤ]. ((x^n - y^n) = (Σ(x^n - i + 1 * y^i | i < n) * (x - y)) ∈ ℤ)

Proof

Definitions occuring in Statement : exp: i^n, sum: Σ(f[x] | x < k), nat_plus: ℕ⁺, uall: ∀[x:A]. B[x], multiply: n * m, subtract: n - m, add: n + m, natural_number: $n, int: ℤ, equal: s = t ∈ T
Definitions unfolded in proof : uall: ∀[x:A]. B[x], member: t ∈ T, squash: ↓T, prop: ℙ, subtype_rel: A ⊆r B, so_lambda: λ₂x.t[x], nat: ℕ, nat_plus: ℕ⁺, int_seg: {i..j^-}, guard: {T}, lelt: i ≤ j < k, and: P ∧ Q, all: ∀x:A. B[x], decidable: Dec(P), or: P ∨ Q, uimplies: b supposing a, satisfiable_int_formula: satisfiable_int_formula(fmla), exists: ∃x:A. B[x], false: False, implies: P ⇒ Q, not: ¬A, top: Top, le: A ≤ B, less_than': less_than'(a;b), so_apply: x[s], true: True, iff: P ⇐⇒ Q, rev_implies: P ⇐ Q, subtract: n - m, sq_type: SQType(T), uiff: uiff(P;Q)
Lemmas referenced : equal_wf, squash_wf, true_wf, subtract_wf, exp_wf2, nat_plus_subtype_nat, left_mul_subtract_distrib, sum_wf, int_seg_properties, nat_plus_properties, decidable__le, satisfiable-full-omega-tt, intformand_wf, intformnot_wf, intformle_wf, itermConstant_wf, itermSubtract_wf, itermVar_wf, itermAdd_wf, intformless_wf, int_formula_prop_and_lemma, int_formula_prop_not_lemma, int_formula_prop_le_lemma, int_term_value_constant_lemma, int_term_value_subtract_lemma, int_term_value_var_lemma, int_term_value_add_lemma, int_formula_prop_less_lemma, int_formula_prop_wf, le_wf, int_seg_subtype_nat, false_wf, int_seg_wf, iff_weakening_equal, nat_plus_wf, mul_com, sum_scalar_mult, subtype_base_sq, int_subtype_base, mul_assoc, exp_step, decidable__lt, less_than_wf, minus-add, minus-one-mul, add-swap, minus-one-mul-top, add-commutes, add-associates, itermMinus_wf, int_term_value_minus_lemma, mul-swap, not-lt-2, condition-implies-le, zero-add, add_functionality_wrt_le, add-zero, le-add-cancel, add-subtract-cancel, subtract-add-cancel, sum_split1, sum_split_first, minus-zero, exp0_lemma, decidable__equal_int, intformeq_wf, itermMultiply_wf, int_formula_prop_eq_lemma, int_term_value_mul_lemma, minus-minus, add-mul-special, zero-mul, subtract-is-int-iff
Rules used in proof : sqequalSubstitution, sqequalTransitivity, computationStep, sqequalReflexivity, isect_memberFormation, introduction, cut, applyEquality, thin, lambdaEquality, sqequalHypSubstitution, imageElimination, extract_by_obid, isectElimination, hypothesisEquality, equalityTransitivity, hypothesis, equalitySymmetry, universeEquality, because_Cache, sqequalRule, multiplyEquality, dependent_set_memberEquality, setElimination, rename, addEquality, natural_numberEquality, productElimination, dependent_functionElimination, unionElimination, independent_isectElimination, dependent_pairFormation, int_eqEquality, intEquality, isect_memberEquality, voidElimination, voidEquality, independent_pairFormation, computeAll, lambdaFormation, imageMemberEquality, baseClosed, independent_functionElimination, axiomEquality, instantiate, cumulativity, minusEquality, pointwiseFunctionality, promote_hyp, baseApply, closedConclusion

Latex:
\mforall{}[n:\mBbbN{}\msupplus{}]. \mforall{}[x,y:\mBbbZ{}]. ((x\^{}n - y\^{}n) = (\mSigma{}(x\^{}n - i + 1 * y\^{}i | i < n) * (x - y))) Date html generated: 2017_04_17-AM-09_45_23 Last ObjectModification: 2017_02_27-PM-05_40_27 Theory : num_thy_1 Home Index