Proof of Nuprl Lemma : DAlembert-equation-iff2

Step * 1 2 2 1 1 1 1 of Lemma DAlembert-equation-iff2

1. f : ℝ ⟶ ℝ
2. ∀x,y:ℝ.  ((x = y) ⇒ ((f x) = (f y)))
3. ∀x,y:ℝ.  (((f (x + y)) + (f (x - y))) = (r(2) * (f x) * (f y)))
4. u : ℝ
5. r0 < u
6. g : (-(u), u) ⟶ℝ
7. h : (-(u), u) ⟶ℝ
8. d(f x)/dx = λx.g x on (-(u), u)
9. d(g x)/dx = λx.h x on (-(u), u)
10. r0 ≤ (h r0)
11. ¬¬((∃c:ℝ. ∀x:ℝ. ((f x) = rcos(c * x))) ∨ (∃c:ℝ. ∀x:ℝ. ((f x) = cosh(c * x))))
12. x : ℝ
13. c : ℝ
14. ∀x:ℝ. ((f x) = cosh(c * x))
15. d(cosh(c * x))/dx = λx.c * sinh(c * x) on (-(u), u)
16. d(f x)/dx = λx.c * sinh(c * x) on (-(u), u)
17. iproper((-(u), u))
18. rfun-eq((-(u), u);λ₂x.c * sinh(c * x);λ₂x.g x)
19. d(c * sinh(c * x))/dx = λx.c * c * cosh(c * x) on (-(u), u)
20. d(g x)/dx = λx.c * c * cosh(c * x) on (-(u), u)
⊢ (h r0) = (c * c)
BY
{ (FLemma `derivative_unique` [-1;9] THENA Auto) }

1
1. f : ℝ ⟶ ℝ
2. ∀x,y:ℝ.  ((x = y) ⇒ ((f x) = (f y)))
3. ∀x,y:ℝ.  (((f (x + y)) + (f (x - y))) = (r(2) * (f x) * (f y)))
4. u : ℝ
5. r0 < u
6. g : (-(u), u) ⟶ℝ
7. h : (-(u), u) ⟶ℝ
8. d(f x)/dx = λx.g x on (-(u), u)
9. d(g x)/dx = λx.h x on (-(u), u)
10. r0 ≤ (h r0)
11. ¬¬((∃c:ℝ. ∀x:ℝ. ((f x) = rcos(c * x))) ∨ (∃c:ℝ. ∀x:ℝ. ((f x) = cosh(c * x))))
12. x : ℝ
13. c : ℝ
14. ∀x:ℝ. ((f x) = cosh(c * x))
15. d(cosh(c * x))/dx = λx.c * sinh(c * x) on (-(u), u)
16. d(f x)/dx = λx.c * sinh(c * x) on (-(u), u)
17. iproper((-(u), u))
18. rfun-eq((-(u), u);λ₂x.c * sinh(c * x);λ₂x.g x)
19. d(c * sinh(c * x))/dx = λx.c * c * cosh(c * x) on (-(u), u)
20. d(g x)/dx = λx.c * c * cosh(c * x) on (-(u), u)
21. rfun-eq((-(u), u);λ₂x.c * c * cosh(c * x);λ₂x.h x)
⊢ (h r0) = (c * c)

Latex:

Latex:
1. f : \mBbbR{} {}\mrightarrow{} \mBbbR{} 2. \mforall{}x,y:\mBbbR{}. ((x = y) {}\mRightarrow{} ((f x) = (f y))) 3. \mforall{}x,y:\mBbbR{}. (((f (x + y)) + (f (x - y))) = (r(2) * (f x) * (f y))) 4. u : \mBbbR{} 5. r0 < u 6. g : (-(u), u) {}\mrightarrow{}\mBbbR{} 7. h : (-(u), u) {}\mrightarrow{}\mBbbR{} 8. d(f x)/dx = \mlambda{}x.g x on (-(u), u) 9. d(g x)/dx = \mlambda{}x.h x on (-(u), u) 10. r0 \mleq{} (h r0) 11. \mneg{}\mneg{}((\mexists{}c:\mBbbR{}. \mforall{}x:\mBbbR{}. ((f x) = rcos(c * x))) \mvee{} (\mexists{}c:\mBbbR{}. \mforall{}x:\mBbbR{}. ((f x) = cosh(c * x)))) 12. x : \mBbbR{} 13. c : \mBbbR{} 14. \mforall{}x:\mBbbR{}. ((f x) = cosh(c * x)) 15. d(cosh(c * x))/dx = \mlambda{}x.c * sinh(c * x) on (-(u), u) 16. d(f x)/dx = \mlambda{}x.c * sinh(c * x) on (-(u), u) 17. iproper((-(u), u)) 18. rfun-eq((-(u), u);\mlambda{}\msubtwo{}x.c * sinh(c * x);\mlambda{}\msubtwo{}x.g x) 19. d(c * sinh(c * x))/dx = \mlambda{}x.c * c * cosh(c * x) on (-(u), u) 20. d(g x)/dx = \mlambda{}x.c * c * cosh(c * x) on (-(u), u) \mvdash{} (h r0) = (c * c) By Latex: (FLemma `derivative\_unique` [-1;9] THENA Auto) Home Index