Nuprl Lemma : integral_functionality

Nuprl Lemma : integral_functionality_endpoints

∀[a,b:ℝ]. ∀[f:{f:[rmin(a;b), rmax(a;b)] ⟶ℝ| ifun(f;[rmin(a;b), rmax(a;b)])} ].
∀a',b':ℝ. (a_∫^-b f[x] dx = a'_∫^-b' f[x] dx) supposing ((a = a') and (b = b'))

Proof

Definitions occuring in Statement : integral: a_∫^-b f[x] dx, ifun: ifun(f;I), rfun: I ⟶ℝ, rccint: [l, u], rmin: rmin(x;y), rmax: rmax(x;y), req: x = y, real: ℝ, uimplies: b supposing a, uall: ∀[x:A]. B[x], so_apply: x[s], all: ∀x:A. B[x], set: {x:A| B[x]}
Definitions unfolded in proof : member: t ∈ T, uall: ∀[x:A]. B[x], uimplies: b supposing a, all: ∀x:A. B[x], rfun: I ⟶ℝ, so_apply: x[s], prop: ℙ, squash: ↓T, label: ...$L... t, iff: P ⇐⇒ Q, and: P ∧ Q, implies: P ⇒ Q, subtype_rel: A ⊆r B, guard: {T}, rev_implies: P ⇐ Q, so_lambda: λ₂x.t[x], uiff: uiff(P;Q), rev_uimplies: rev_uimplies(P;Q), integral: a_∫^-b f[x] dx
Lemmas referenced : rmin_wf, rleq_weakening_equal, rmax_wf, req_witness, i-member_wf, rccint_wf, real_wf, ifun_wf, squash_wf, icompact_wf, rfun_wf, interval_wf, eta_conv, rccint-icompact, rmin-rleq-rmax, iff_weakening_equal, integral_wf, ifun_subtype_3, req_wf, set_wf, rleq_functionality, rmin_functionality, req_weakening, rmax_functionality, rsub_wf, rmin-rleq, rleq-rmax, Riemann-integral_wf, rleq_wf, req_functionality, rsub_functionality, Riemann-integral_functionality_endpoints
Rules used in proof : sqequalSubstitution, sqequalTransitivity, computationStep, sqequalReflexivity, cut, introduction, extract_by_obid, sqequalHypSubstitution, isectElimination, thin, hypothesisEquality, hypothesis, because_Cache, independent_isectElimination, isect_memberFormation, lambdaFormation, setElimination, rename, dependent_set_memberEquality, sqequalRule, lambdaEquality, applyEquality, setEquality, imageElimination, equalityTransitivity, equalitySymmetry, dependent_functionElimination, productElimination, independent_functionElimination, imageMemberEquality, baseClosed, universeEquality, isect_memberEquality

Latex:
\mforall{}[a,b:\mBbbR{}]. \mforall{}[f:\{f:[rmin(a;b), rmax(a;b)] {}\mrightarrow{}\mBbbR{}| ifun(f;[rmin(a;b), rmax(a;b)])\} ]. \mforall{}a',b':\mBbbR{}. (a\_\mint{}\msupminus{}b f[x] dx = a'\_\mint{}\msupminus{}b' f[x] dx) supposing ((a = a') and (b = b')) Date html generated: 2016_10_26-PM-00_08_08 Last ObjectModification: 2016_09_12-PM-05_38_49 Theory : reals_2 Home Index