Proof of Nuprl Lemma : derivative-rsqrt

Step * 1 3 1 1 of Lemma derivative-rsqrt

1. d(e^(r1/r(2)) * rlog(x))/dx = λx.e^(r1/r(2)) * rlog(x) * (r1/r(2)) * (r1/x) on (r0, ∞)
2. x : ℝ
3. [%2] : r0 < x
4. r0 < rsqrt(x)
5. r(2) * rsqrt(x) ≠ r0
6. e^(r1/r(2)) * rlog(x) = rsqrt(x)
⊢ ((e^(r1/r(2)) * rlog(x) * (r1/r(2)) * (r1/x)) * r(2) * rsqrt(x)) = r1
BY
{ (RWO "-1" 0 THENA Auto) }

1
1. d(e^(r1/r(2)) * rlog(x))/dx = λx.e^(r1/r(2)) * rlog(x) * (r1/r(2)) * (r1/x) on (r0, ∞)
2. x : ℝ
3. r0 < x
4. r0 < rsqrt(x)
5. r(2) * rsqrt(x) ≠ r0
6. e^(r1/r(2)) * rlog(x) = rsqrt(x)
⊢ ((rsqrt(x) * (r1/r(2)) * (r1/x)) * r(2) * rsqrt(x)) = r1

Latex:

Latex:
1. d(e\^{}(r1/r(2)) * rlog(x))/dx = \mlambda{}x.e\^{}(r1/r(2)) * rlog(x) * (r1/r(2)) * (r1/x) on (r0, \minfty{}) 2. x : \mBbbR{} 3. [\%2] : r0 < x 4. r0 < rsqrt(x) 5. r(2) * rsqrt(x) \mneq{} r0 6. e\^{}(r1/r(2)) * rlog(x) = rsqrt(x) \mvdash{} ((e\^{}(r1/r(2)) * rlog(x) * (r1/r(2)) * (r1/x)) * r(2) * rsqrt(x)) = r1 By Latex: (RWO "-1" 0 THENA Auto) Home Index