Proof of Nuprl Lemma : intermediate-value-lemma

Step * 1 of Lemma intermediate-value-lemma

1. a : ℝ
2. b : {b:ℝ| a < b}
3. f : [a, b] ⟶ℝ
4. ∀x,y:{x:ℝ| x ∈ [a, b]} . ((x = y) ⇒ (f[x] = f[y]))
5. a ≤ b
6. c : {c:ℝ| (f(a) ≤ c) ∧ (c ≤ f(b))}
7. ∃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) ∧ (b2 \000C≤ b1) ∧ ((b2 - a2) ≤ ((b1 - a1) * d)))])

8. y : ℝ
9. y ∈ closure(λz.(↓sublevelset([a, b];f;c) z))
10. y ∈ closure(λz.(↓superlevelset([a, b];f;c) z))
11. f(x) continuous for x ∈ [a, b]
⊢ (y ∈ [a, b]) ∧ (f(y) = c)
BY
{ (PromoteHyp (-1) 4
THEN (Assert sublevelset([a, b];f;c) y BY
((Assert closed-rset(sublevelset([a, b];f;c)) BY

                       (BLemma `sublevelset-closed` THEN Auto THEN RepUR ``i-closed`` 0 THEN Auto))

                THEN BackThruHyp' (-1)
                THEN Auto
                THEN RepeatFor 4 (ParallelOp -3)
                THEN Reduce -1
                THEN D -1
                THEN Unhide
                THEN Auto
                THEN Unfold `sublevelset` 0
                THEN Reduce 0
                THEN Auto))
   THEN (Assert superlevelset([a, b];f;c) y BY
               ((Assert closed-rset(superlevelset([a, b];f;c)) BY

                       (BLemma `superlevelset-closed` THEN Auto THEN RepUR ``i-closed`` 0 THEN Auto))

                THEN BackThruHyp' (-1)
                THEN Auto
                THEN RepeatFor 4 (ParallelOp -3)
                THEN Reduce -1
                THEN D -1
                THEN Unhide
                THEN Auto
                THEN Unfold `superlevelset` 0
                THEN Reduce 0
                THEN Auto))) }

1
1. a : ℝ
2. b : {b:ℝ| a < b}
3. f : [a, b] ⟶ℝ
4. f(x) continuous for x ∈ [a, b]
5. ∀x,y:{x:ℝ| x ∈ [a, b]} .  ((x = y) ⇒ (f[x] = f[y]))
6. a ≤ b
7. c : {c:ℝ| (f(a) ≤ c) ∧ (c ≤ f(b))}
8. ∃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) ∧ (b2 \000C≤ b1) ∧ ((b2 - a2) ≤ ((b1 - a1) * d)))])

9. y : ℝ
10. y ∈ closure(λz.(↓sublevelset([a, b];f;c) z))
11. y ∈ closure(λz.(↓superlevelset([a, b];f;c) z))
12. sublevelset([a, b];f;c) y
13. superlevelset([a, b];f;c) y
⊢ (y ∈ [a, b]) ∧ (f(y) = c)

Latex:

Latex:
1. a : \mBbbR{} 2. b : \{b:\mBbbR{}| a < b\} 3. f : [a, b] {}\mrightarrow{}\mBbbR{} 4. \mforall{}x,y:\{x:\mBbbR{}| x \mmember{} [a, b]\} . ((x = y) {}\mRightarrow{} (f[x] = f[y])) 5. a \mleq{} b 6. c : \{c:\mBbbR{}| (f(a) \mleq{} c) \mwedge{} (c \mleq{} f(b))\} 7. \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 \mleq{} b1)\} . \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 \mleq{} b2) \mwedge{} (b2 \mleq{} b1) \mwedge{} ((b2 - a2) \mleq{} ((b1 - a1) * d)))]) 8. y : \mBbbR{} 9. y \mmember{} closure(\mlambda{}z.(\mdownarrow{}sublevelset([a, b];f;c) z)) 10. y \mmember{} closure(\mlambda{}z.(\mdownarrow{}superlevelset([a, b];f;c) z)) 11. f(x) continuous for x \mmember{} [a, b] \mvdash{} (y \mmember{} [a, b]) \mwedge{} (f(y) = c) By Latex: (PromoteHyp (-1) 4 THEN (Assert sublevelset([a, b];f;c) y BY ((Assert closed-rset(sublevelset([a, b];f;c)) BY (BLemma `sublevelset-closed` THEN Auto THEN RepUR ``i-closed`` 0 THEN Auto)) THEN BackThruHyp' (-1) THEN Auto THEN RepeatFor 4 (ParallelOp -3) THEN Reduce -1 THEN D -1 THEN Unhide THEN Auto THEN Unfold `sublevelset` 0 THEN Reduce 0 THEN Auto)) THEN (Assert superlevelset([a, b];f;c) y BY ((Assert closed-rset(superlevelset([a, b];f;c)) BY (BLemma `superlevelset-closed` THEN Auto THEN RepUR ``i-closed`` 0 THEN Auto)) THEN BackThruHyp' (-1) THEN Auto THEN RepeatFor 4 (ParallelOp -3) THEN Reduce -1 THEN D -1 THEN Unhide THEN Auto THEN Unfold `superlevelset` 0 THEN Reduce 0 THEN Auto))) Home Index