Proof of Nuprl Lemma : rpower-greater-one

Step * 1 of Lemma rpower-greater-one

1. x : ℝ
2. q : ℝ
3. r0 < x
4. (r1 + x) < q
5. n : ℤ
6. [%3] : 0 < n
7. (r1 + (r(n - 1) * x)) < q^n - 1 supposing 1 < n - 1
8. 1 < n
9. r0 ≤ r1
10. r0 ≤ (r1 + x)
11. n = 2 ∈ ℤ
⊢ (r1 + (r(2) * x)) < q^2
BY
{ ((Assert (r1 + x) ≤ q BY
          Auto)
   THEN (FLemma `rmul_functionality_wrt_rleq2` [-1;-1] THENA (Auto THEN OrLeft THEN Auto))
   )⋅ }

1
1. x : ℝ
2. q : ℝ
3. r0 < x
4. (r1 + x) < q
5. n : ℤ
6. [%3] : 0 < n
7. (r1 + (r(n - 1) * x)) < q^n - 1 supposing 1 < n - 1
8. 1 < n
9. r0 ≤ r1
10. r0 ≤ (r1 + x)
11. n = 2 ∈ ℤ
12. (r1 + x) ≤ q
13. ((r1 + x) * (r1 + x)) ≤ (q * q)
⊢ (r1 + (r(2) * x)) < q^2

Latex:

Latex:
1. x : \mBbbR{} 2. q : \mBbbR{} 3. r0 < x 4. (r1 + x) < q 5. n : \mBbbZ{} 6. [\%3] : 0 < n 7. (r1 + (r(n - 1) * x)) < q\^{}n - 1 supposing 1 < n - 1 8. 1 < n 9. r0 \mleq{} r1 10. r0 \mleq{} (r1 + x) 11. n = 2 \mvdash{} (r1 + (r(2) * x)) < q\^{}2 By Latex: ((Assert (r1 + x) \mleq{} q BY Auto) THEN (FLemma `rmul\_functionality\_wrt\_rleq2` [-1;-1] THENA (Auto THEN OrLeft THEN Auto)) )\mcdot{} Home Index