Nuprl Lemma : intermediate-value-lemma'-ext
∀a:ℝ. ∀b:{b:ℝ| a < b} . ∀f:[a, b] ⟶ℝ.
∀c:{c:ℝ| (f(a) ≤ c) ∧ (c ≤ f(b))}
((∃d:{d:ℝ| (r0 ≤ d) ∧ (d < r1)}
∀a1:{a1:ℝ| (a1 ∈ [a, b]) ∧ (f(a1) ≤ c)} . ∀b1:{b1:ℝ| (b1 ∈ [a, b]) ∧ (c ≤ f(b1)) ∧ (a1 < b1)} .
∃a2:{a2:ℝ| (a2 ∈ [a, b]) ∧ (f(a2) ≤ c)} . (∃b2:{b2:ℝ| (b2 ∈ [a, b]) ∧ (c ≤ f(b2))} [((a1 ≤ a2) ∧ (a2 < b2) ∧ (\000Cb2 ≤ b1) ∧ ((b2 - a2) ≤ ((b1 - a1) * d)))]))
⇒ (∃x:ℝ [((x ∈ [a, b]) ∧ (f(x) = c))]))
supposing ∀x,y:{x:ℝ| x ∈ [a, b]} . ((x = y) ⇒ (f[x] = f[y]))
Proof
Definitions occuring in Statement :
r-ap: f(x),
rfun: I ⟶ℝ,
rccint: [l, u],
i-member: r ∈ I,
rleq: x ≤ y,
rless: x < y,
rsub: x - y,
req: x = y,
rmul: a * b,
int-to-real: r(n),
real: ℝ,
uimplies: b supposing a,
so_apply: x[s],
all: ∀x:A. B[x],
sq_exists: ∃x:A [B[x]],
exists: ∃x:A. B[x],
implies: P ⇒ Q,
and: P ∧ Q,
set: {x:A| B[x]} ,
natural_number: $n
Definitions unfolded in proof :
member: t ∈ T,
pi1: fst(t),
pi2: snd(t),
let: let,
intermediate-value-lemma',
closures-meet-sq'-ext,
uall: ∀[x:A]. B[x],
so_lambda: so_lambda(x,y,z,w.t[x; y; z; w]),
so_apply: x[s1;s2;s3;s4],
so_lambda: λ2x y.t[x; y],
top: Top,
so_apply: x[s1;s2],
uimplies: b supposing a
Lemmas referenced :
intermediate-value-lemma',
lifting-strict-spread,
istype-void,
strict4-spread,
closures-meet-sq'-ext
Rules used in proof :
introduction,
sqequalSubstitution,
sqequalTransitivity,
computationStep,
sqequalReflexivity,
cut,
instantiate,
extract_by_obid,
hypothesis,
sqequalRule,
thin,
sqequalHypSubstitution,
equalityTransitivity,
equalitySymmetry,
isectElimination,
baseClosed,
isect_memberEquality_alt,
voidElimination,
independent_isectElimination
Latex:
\mforall{}a:\mBbbR{}. \mforall{}b:\{b:\mBbbR{}| a < b\} . \mforall{}f:[a, b] {}\mrightarrow{}\mBbbR{}.
\mforall{}c:\{c:\mBbbR{}| (f(a) \mleq{} c) \mwedge{} (c \mleq{} f(b))\}
((\mexists{}d:\{d:\mBbbR{}| (r0 \mleq{} d) \mwedge{} (d < r1)\}
\mforall{}a1:\{a1:\mBbbR{}| (a1 \mmember{} [a, b]) \mwedge{} (f(a1) \mleq{} c)\} . \mforall{}b1:\{b1:\mBbbR{}| (b1 \mmember{} [a, b]) \mwedge{} (c \mleq{} f(b1)) \mwedge{} (a1 < b1)\}\000C .
\mexists{}a2:\{a2:\mBbbR{}| (a2 \mmember{} [a, b]) \mwedge{} (f(a2) \mleq{} c)\}
(\mexists{}b2:\{b2:\mBbbR{}| (b2 \mmember{} [a, b]) \mwedge{} (c \mleq{} f(b2))\} [((a1 \mleq{} a2)
\mwedge{} (a2 < b2)
\mwedge{} (b2 \mleq{} b1)
\mwedge{} ((b2 - a2) \mleq{} ((b1 - a1) * d)))]))
{}\mRightarrow{} (\mexists{}x:\mBbbR{} [((x \mmember{} [a, b]) \mwedge{} (f(x) = c))]))
supposing \mforall{}x,y:\{x:\mBbbR{}| x \mmember{} [a, b]\} . ((x = y) {}\mRightarrow{} (f[x] = f[y]))
Date html generated:
2019_10_30-AM-07_49_24
Last ObjectModification:
2019_04_02-AM-10_52_20
Theory : reals
Home
Index