Proof of Nuprl Lemma : rmin-rnexp

Step * 1 2 of Lemma rmin-rnexp

.....upcase.....
1. x : ℝ
2. y : ℝ
3. r0 ≤ x
4. r0 ≤ y
5. n : ℤ
6. 0 < n
7. rmin(x^n - 1;y^n - 1) ≤ rmin(x;y)^n - 1
⊢ rmin(x^n;y^n) ≤ rmin(x;y)^n
BY
{ ((RWO "rnexp_unroll" 0 THENA Auto) THEN Repeat (AutoSplit) THEN (RWO "-1<" 0 THENA Auto))⋅ }

1
1. x : ℝ
2. y : ℝ
3. r0 ≤ x
4. r0 ≤ y
5. n : ℤ
6. n ≠ 1
7. n ≠ 0
8. 0 < n
9. rmin(x^n - 1;y^n - 1) ≤ rmin(x;y)^n - 1
⊢ rmin(x^n - 1 * x;y^n - 1 * y) ≤ (rmin(x^n - 1;y^n - 1) * rmin(x;y))

Latex:

Latex:
.....upcase..... 1. x : \mBbbR{} 2. y : \mBbbR{} 3. r0 \mleq{} x 4. r0 \mleq{} y 5. n : \mBbbZ{} 6. 0 < n 7. rmin(x\^{}n - 1;y\^{}n - 1) \mleq{} rmin(x;y)\^{}n - 1 \mvdash{} rmin(x\^{}n;y\^{}n) \mleq{} rmin(x;y)\^{}n By Latex: ((RWO "rnexp\_unroll" 0 THENA Auto) THEN Repeat (AutoSplit) THEN (RWO "-1<" 0 THENA Auto))\mcdot{} Home Index