Proof of Nuprl Lemma : derivative-mul-part1

Step * 1 1 2 of Lemma derivative-mul-part1

1. I : Interval
2. True
3. f1 : I ⟶ℝ
4. f2 : I ⟶ℝ
5. g1 : I ⟶ℝ
6. g2 : I ⟶ℝ
7. f1(x) (proper)continuous for x ∈ I
8. f2(x) (proper)continuous for x ∈ I
9. g2(x) (proper)continuous for x ∈ I
10. d(f1[x])/dx = λx.g1[x] on I
11. d(f2[x])/dx = λx.g2[x] on I
12. k : ℕ⁺
13. n : {n:ℕ⁺| icompact(i-approx(I;n)) ∧ iproper(i-approx(I;n))}
14. i-approx(I;n) ⊆ I
15. icompact(i-approx(I;n))
16. iproper(i-approx(I;n))
17. mc1 : f1(x) continuous for x ∈ i-approx(I;n)
18. a2 : ℝ
19. ∀[x:{r:ℝ| r ∈ i-approx(I;n)} ]. (|f1(x)| ≤ a2)
20. mc2 : f2(x) continuous for x ∈ i-approx(I;n)
21. a1 : ℝ
22. ∀[x:{r:ℝ| r ∈ i-approx(I;n)} ]. (|f2(x)| ≤ a1)
23. mc3 : g2(x) continuous for x ∈ i-approx(I;n)
24. a : ℝ
25. ∀[x:{r:ℝ| r ∈ i-approx(I;n)} ]. (|g2(x)| ≤ a)
26. x : {x:ℝ| x ∈ i-approx(I;n)}
27. |f1(x)| ≤ r(imax(r-bound(a);imax(r-bound(a1);r-bound(a2))))
⊢ (|f2(x)| ≤ r(r-bound(a))) ∨ (|f2(x)| ≤ rmax(r(r-bound(a1));r(r-bound(a2))))
BY
{ (OrRight THEN Auto THEN BLemma `rmax_ub` THEN Auto THEN OrLeft THEN Auto)⋅ }

1
1. I : Interval
2. True
3. f1 : I ⟶ℝ
4. f2 : I ⟶ℝ
5. g1 : I ⟶ℝ
6. g2 : I ⟶ℝ
7. f1(x) (proper)continuous for x ∈ I
8. f2(x) (proper)continuous for x ∈ I
9. g2(x) (proper)continuous for x ∈ I
10. d(f1[x])/dx = λx.g1[x] on I
11. d(f2[x])/dx = λx.g2[x] on I
12. k : ℕ⁺
13. n : {n:ℕ⁺| icompact(i-approx(I;n)) ∧ iproper(i-approx(I;n))}
14. i-approx(I;n) ⊆ I
15. icompact(i-approx(I;n))
16. iproper(i-approx(I;n))
17. mc1 : f1(x) continuous for x ∈ i-approx(I;n)
18. a2 : ℝ
19. ∀[x:{r:ℝ| r ∈ i-approx(I;n)} ]. (|f1(x)| ≤ a2)
20. mc2 : f2(x) continuous for x ∈ i-approx(I;n)
21. a1 : ℝ
22. ∀[x:{r:ℝ| r ∈ i-approx(I;n)} ]. (|f2(x)| ≤ a1)
23. mc3 : g2(x) continuous for x ∈ i-approx(I;n)
24. a : ℝ
25. ∀[x:{r:ℝ| r ∈ i-approx(I;n)} ]. (|g2(x)| ≤ a)
26. x : {x:ℝ| x ∈ i-approx(I;n)}
27. |f1(x)| ≤ r(imax(r-bound(a);imax(r-bound(a1);r-bound(a2))))
⊢ |f2(x)| ≤ r(r-bound(a1))

Latex:

Latex:
1. I : Interval 2. True 3. f1 : I {}\mrightarrow{}\mBbbR{} 4. f2 : I {}\mrightarrow{}\mBbbR{} 5. g1 : I {}\mrightarrow{}\mBbbR{} 6. g2 : I {}\mrightarrow{}\mBbbR{} 7. f1(x) (proper)continuous for x \mmember{} I 8. f2(x) (proper)continuous for x \mmember{} I 9. g2(x) (proper)continuous for x \mmember{} I 10. d(f1[x])/dx = \mlambda{}x.g1[x] on I 11. d(f2[x])/dx = \mlambda{}x.g2[x] on I 12. k : \mBbbN{}\msupplus{} 13. n : \{n:\mBbbN{}\msupplus{}| icompact(i-approx(I;n)) \mwedge{} iproper(i-approx(I;n))\} 14. i-approx(I;n) \msubseteq{} I 15. icompact(i-approx(I;n)) 16. iproper(i-approx(I;n)) 17. mc1 : f1(x) continuous for x \mmember{} i-approx(I;n) 18. a2 : \mBbbR{} 19. \mforall{}[x:\{r:\mBbbR{}| r \mmember{} i-approx(I;n)\} ]. (|f1(x)| \mleq{} a2) 20. mc2 : f2(x) continuous for x \mmember{} i-approx(I;n) 21. a1 : \mBbbR{} 22. \mforall{}[x:\{r:\mBbbR{}| r \mmember{} i-approx(I;n)\} ]. (|f2(x)| \mleq{} a1) 23. mc3 : g2(x) continuous for x \mmember{} i-approx(I;n) 24. a : \mBbbR{} 25. \mforall{}[x:\{r:\mBbbR{}| r \mmember{} i-approx(I;n)\} ]. (|g2(x)| \mleq{} a) 26. x : \{x:\mBbbR{}| x \mmember{} i-approx(I;n)\} 27. |f1(x)| \mleq{} r(imax(r-bound(a);imax(r-bound(a1);r-bound(a2)))) \mvdash{} (|f2(x)| \mleq{} r(r-bound(a))) \mvee{} (|f2(x)| \mleq{} rmax(r(r-bound(a1));r(r-bound(a2)))) By Latex: (OrRight THEN Auto THEN BLemma `rmax\_ub` THEN Auto THEN OrLeft THEN Auto)\mcdot{} Home Index