Proof of Nuprl Lemma : rsin-radd

Step * 1 1 1 1 of Lemma rsin-radd

.....assertion.....
1. x : ℝ
2. y : ℝ
3. d(rsin(x + y))/dx = λx.rcos(x + y) on (-∞, ∞)
4. d(rcos(x + y))/dx = λx.-(rsin(x + y)) on (-∞, ∞)
5. d(-(rsin(x + y)))/dx = λx.-(rcos(x + y)) on (-∞, ∞)
6. d(-(rcos(x + y)))/dx = λx.rsin(x + y) on (-∞, ∞)

7. d((rsin(x) * rcos(y)) + (rcos(x) * rsin(y)))/dx = λx.(rcos(x) * rcos(y)) + (-(rsin(x)) * rsin(y)) on (-∞, ∞)

8. d((rcos(x) * rcos(y)) + (-(rsin(x)) * rsin(y)))/dx = λx.(-(rsin(x)) * rcos(y)) + (-(rcos(x)) * rsin(y)) on (-∞, ∞)

9. d((-(rsin(x)) * rcos(y)) + (-(rcos(x)) * rsin(y)))/dx = λx.(-(rcos(x)) * rcos(y))
+ (-(-(rsin(x))) * rsin(y)) on (-∞, ∞)

10. d((-(rcos(x)) * rcos(y)) + (-(-(rsin(x))) * rsin(y)))/dx = λx.(rsin(x) * rcos(y)) + (rcos(x) * rsin(y)) on (-∞, ∞)

⊢ (rsin(r0 + y) = ((rsin(r0) * rcos(y)) + (rcos(r0) * rsin(y))))
∧ (rcos(r0 + y) = ((rcos(r0) * rcos(y)) + (-(rsin(r0)) * rsin(y))))
∧ (-(rsin(r0 + y)) = ((-(rsin(r0)) * rcos(y)) + (-(rcos(r0)) * rsin(y))))
∧ (-(rcos(r0 + y)) = ((-(rcos(r0)) * rcos(y)) + (-(-(rsin(r0))) * rsin(y))))
BY
{ ((RWW "radd-zero-both.2 rsin0 rcos0 rmul-zero-both.2 rminus-int" 0 THENA Auto)
   THEN RepeatFor 2 ((Subst' -0 ~ 0 0 THENA Auto))
   THEN RWW "radd-zero-both.2 radd-zero rmul-zero-both.2 rmul-one-both.2" 0
   THEN Auto) }

Latex:

Latex:
.....assertion..... 1. x : \mBbbR{} 2. y : \mBbbR{} 3. d(rsin(x + y))/dx = \mlambda{}x.rcos(x + y) on (-\minfty{}, \minfty{}) 4. d(rcos(x + y))/dx = \mlambda{}x.-(rsin(x + y)) on (-\minfty{}, \minfty{}) 5. d(-(rsin(x + y)))/dx = \mlambda{}x.-(rcos(x + y)) on (-\minfty{}, \minfty{}) 6. d(-(rcos(x + y)))/dx = \mlambda{}x.rsin(x + y) on (-\minfty{}, \minfty{}) 7. d((rsin(x) * rcos(y)) + (rcos(x) * rsin(y)))/dx = \mlambda{}x.(rcos(x) * rcos(y)) + (-(rsin(x)) * rsin(y)) on (-\minfty{}, \minfty{}) 8. d((rcos(x) * rcos(y)) + (-(rsin(x)) * rsin(y)))/dx = \mlambda{}x.(-(rsin(x)) * rcos(y)) + (-(rcos(x)) * rsin(y)) on (-\minfty{}, \minfty{}) 9. d((-(rsin(x)) * rcos(y)) + (-(rcos(x)) * rsin(y)))/dx = \mlambda{}x.(-(rcos(x)) * rcos(y)) + (-(-(rsin(x))) * rsin(y)) on (-\minfty{}, \minfty{}) 10. d((-(rcos(x)) * rcos(y)) + (-(-(rsin(x))) * rsin(y)))/dx = \mlambda{}x.(rsin(x) * rcos(y)) + (rcos(x) * rsin(y)) on (-\minfty{}, \minfty{}) \mvdash{} (rsin(r0 + y) = ((rsin(r0) * rcos(y)) + (rcos(r0) * rsin(y)))) \mwedge{} (rcos(r0 + y) = ((rcos(r0) * rcos(y)) + (-(rsin(r0)) * rsin(y)))) \mwedge{} (-(rsin(r0 + y)) = ((-(rsin(r0)) * rcos(y)) + (-(rcos(r0)) * rsin(y)))) \mwedge{} (-(rcos(r0 + y)) = ((-(rcos(r0)) * rcos(y)) + (-(-(rsin(r0))) * rsin(y)))) By Latex: ((RWW "radd-zero-both.2 rsin0 rcos0 rmul-zero-both.2 rminus-int" 0 THENA Auto) THEN RepeatFor 2 ((Subst' -0 \msim{} 0 0 THENA Auto)) THEN RWW "radd-zero-both.2 radd-zero rmul-zero-both.2 rmul-one-both.2" 0 THEN Auto) Home Index