Proof of Nuprl Lemma : locally-non-zero-finite-deriv-seq

Step * 2 2 2 1 1 1 of Lemma locally-non-zero-finite-deriv-seq

1. a : ℝ
2. b : ℝ
3. u : ℝ
4. v : ℝ
5. a ≤ u
6. u < v
7. v ≤ b
8. k : ℤ
9. [%4] : 0 < k
10. ∀f:[a, b] ⟶ℝ
      ((∃F:ℕ(k - 1) + 1 ⟶ [a, b] ⟶ℝ
         (finite-deriv-seq([a, b];k - 1;i,x.F[i;x])
         ∧ (∀x:{x:ℝ| x ∈ [a, b]} . (F[0;x] = f(x)))
         ∧ (∃z:{z:ℝ| z ∈ [u, v]} . (r0 < Σ{|F[i;z]| | 0≤i≤k - 1}))))
      ⇒ (∃z:ℝ. ((u ≤ z) ∧ (z ≤ v) ∧ f(z) ≠ r0)))
11. f : [a, b] ⟶ℝ
12. F : ℕk + 1 ⟶ [a, b] ⟶ℝ
13. finite-deriv-seq([a, b];k;i,x.F[i;x])
14. ∀x:{x:ℝ| x ∈ [a, b]} . (F[0;x] = f(x))
15. z : {z:ℝ| z ∈ [u, v]}
16. r0 < (|F[0;z]| + Σ{|F[i;z]| | 0 + 1≤i≤k})
17. u ≤ z
18. z ≤ v
19. r0 < Σ{|F[i;z]| | 0 + 1≤i≤k}
20. z1 : ℝ
21. u ≤ z1
22. z1 ≤ v
23. F[1;z1] ≠ r0
24. d(f[x])/dx = λx.F[1;x] on [a, b]
25. k1 : ℕ⁺
26. (r1/r(k1)) < |F[1;z1]|
⊢ ∃z:ℝ. ((u ≤ z) ∧ (z ≤ v) ∧ f(z) ≠ r0)
BY

{ TACTIC:(InstLemma `non-zero-deriv-non-constant` [⌜u⌝;⌜v⌝;⌜f⌝]⋅ THENA (Auto THEN All (Unfold `rfun`)⋅ THEN Auto)) }

1
1. a : ℝ
2. b : ℝ
3. u : ℝ
4. v : ℝ
5. a ≤ u
6. u < v
7. v ≤ b
8. k : ℤ
9. [%4] : 0 < k
10. ∀f:[a, b] ⟶ℝ
      ((∃F:ℕ(k - 1) + 1 ⟶ [a, b] ⟶ℝ
         (finite-deriv-seq([a, b];k - 1;i,x.F[i;x])
         ∧ (∀x:{x:ℝ| x ∈ [a, b]} . (F[0;x] = f(x)))
         ∧ (∃z:{z:ℝ| z ∈ [u, v]} . (r0 < Σ{|F[i;z]| | 0≤i≤k - 1}))))
      ⇒ (∃z:ℝ. ((u ≤ z) ∧ (z ≤ v) ∧ f(z) ≠ r0)))
11. f : [a, b] ⟶ℝ
12. F : ℕk + 1 ⟶ [a, b] ⟶ℝ
13. finite-deriv-seq([a, b];k;i,x.F[i;x])
14. ∀x:{x:ℝ| x ∈ [a, b]} . (F[0;x] = f(x))
15. z : {z:ℝ| z ∈ [u, v]}
16. r0 < (|F[0;z]| + Σ{|F[i;z]| | 0 + 1≤i≤k})
17. u ≤ z
18. z ≤ v
19. r0 < Σ{|F[i;z]| | 0 + 1≤i≤k}
20. z1 : ℝ
21. u ≤ z1
22. z1 ≤ v
23. F[1;z1] ≠ r0
24. d(f[x])/dx = λx.F[1;x] on [a, b]
25. k1 : ℕ⁺
26. (r1/r(k1)) < |F[1;z1]|
27. ∀f':[u, v] ⟶ℝ
      (d(f(x))/dx = λx.f'(x) on [u, v] ⇒ (∃z:{z:ℝ| z ∈ [u, v]} . f'(z) ≠ r0) ⇒ (∀c:ℝ. ∃z:{z:ℝ| z ∈ [u, v]} . f(z) ≠ c)\000C)
⊢ ∃z:ℝ. ((u ≤ z) ∧ (z ≤ v) ∧ f(z) ≠ r0)

Latex:

Latex:
1. a : \mBbbR{} 2. b : \mBbbR{} 3. u : \mBbbR{} 4. v : \mBbbR{} 5. a \mleq{} u 6. u < v 7. v \mleq{} b 8. k : \mBbbZ{} 9. [\%4] : 0 < k 10. \mforall{}f:[a, b] {}\mrightarrow{}\mBbbR{} ((\mexists{}F:\mBbbN{}(k - 1) + 1 {}\mrightarrow{} [a, b] {}\mrightarrow{}\mBbbR{} (finite-deriv-seq([a, b];k - 1;i,x.F[i;x]) \mwedge{} (\mforall{}x:\{x:\mBbbR{}| x \mmember{} [a, b]\} . (F[0;x] = f(x))) \mwedge{} (\mexists{}z:\{z:\mBbbR{}| z \mmember{} [u, v]\} . (r0 < \mSigma{}\{|F[i;z]| | 0\mleq{}i\mleq{}k - 1\})))) {}\mRightarrow{} (\mexists{}z:\mBbbR{}. ((u \mleq{} z) \mwedge{} (z \mleq{} v) \mwedge{} f(z) \mneq{} r0))) 11. f : [a, b] {}\mrightarrow{}\mBbbR{} 12. F : \mBbbN{}k + 1 {}\mrightarrow{} [a, b] {}\mrightarrow{}\mBbbR{} 13. finite-deriv-seq([a, b];k;i,x.F[i;x]) 14. \mforall{}x:\{x:\mBbbR{}| x \mmember{} [a, b]\} . (F[0;x] = f(x)) 15. z : \{z:\mBbbR{}| z \mmember{} [u, v]\} 16. r0 < (|F[0;z]| + \mSigma{}\{|F[i;z]| | 0 + 1\mleq{}i\mleq{}k\}) 17. u \mleq{} z 18. z \mleq{} v 19. r0 < \mSigma{}\{|F[i;z]| | 0 + 1\mleq{}i\mleq{}k\} 20. z1 : \mBbbR{} 21. u \mleq{} z1 22. z1 \mleq{} v 23. F[1;z1] \mneq{} r0 24. d(f[x])/dx = \mlambda{}x.F[1;x] on [a, b] 25. k1 : \mBbbN{}\msupplus{} 26. (r1/r(k1)) < |F[1;z1]| \mvdash{} \mexists{}z:\mBbbR{}. ((u \mleq{} z) \mwedge{} (z \mleq{} v) \mwedge{} f(z) \mneq{} r0) By Latex: TACTIC:(InstLemma `non-zero-deriv-non-constant` [\mkleeneopen{}u\mkleeneclose{};\mkleeneopen{}v\mkleeneclose{};\mkleeneopen{}f\mkleeneclose{}]\mcdot{} THENA (Auto THEN All (Unfold `rfun`)\mcdot{} THEN Auto) ) Home Index