Proof of Nuprl Lemma : logseq-property

Step * 2 2 of Lemma logseq-property

1. a : {a:ℝ| r0 < a}
2. b : {b:ℝ| |b - rlog(a)| ≤ (r1/r(10))}
3. n : ℤ
4. 0 < n
5. |logseq(a;b;n - 1) - rlog(a)| ≤ (r1/r(10^3^(n - 1)))
6. |logseq(a;b;n) - lgc(a;logseq(a;b;n - 1))| ≤ (r1/r(2 * 10^3^n))
⊢ |logseq(a;b;n) - rlog(a)| ≤ (r1/r(10^3^n))
BY
{ Assert ⌜lgc(a;logseq(a;b;n - 1)) = log-contraction(a;logseq(a;b;n - 1))⌝⋅ }

1
.....assertion.....
1. a : {a:ℝ| r0 < a}
2. b : {b:ℝ| |b - rlog(a)| ≤ (r1/r(10))}
3. n : ℤ
4. 0 < n
5. |logseq(a;b;n - 1) - rlog(a)| ≤ (r1/r(10^3^(n - 1)))
6. |logseq(a;b;n) - lgc(a;logseq(a;b;n - 1))| ≤ (r1/r(2 * 10^3^n))
⊢ lgc(a;logseq(a;b;n - 1)) = log-contraction(a;logseq(a;b;n - 1))

2
1. a : {a:ℝ| r0 < a}
2. b : {b:ℝ| |b - rlog(a)| ≤ (r1/r(10))}
3. n : ℤ
4. 0 < n
5. |logseq(a;b;n - 1) - rlog(a)| ≤ (r1/r(10^3^(n - 1)))
6. |logseq(a;b;n) - lgc(a;logseq(a;b;n - 1))| ≤ (r1/r(2 * 10^3^n))
7. lgc(a;logseq(a;b;n - 1)) = log-contraction(a;logseq(a;b;n - 1))
⊢ |logseq(a;b;n) - rlog(a)| ≤ (r1/r(10^3^n))

Latex:

Latex:
1. a : \{a:\mBbbR{}| r0 < a\} 2. b : \{b:\mBbbR{}| |b - rlog(a)| \mleq{} (r1/r(10))\} 3. n : \mBbbZ{} 4. 0 < n 5. |logseq(a;b;n - 1) - rlog(a)| \mleq{} (r1/r(10\^{}3\^{}(n - 1))) 6. |logseq(a;b;n) - lgc(a;logseq(a;b;n - 1))| \mleq{} (r1/r(2 * 10\^{}3\^{}n)) \mvdash{} |logseq(a;b;n) - rlog(a)| \mleq{} (r1/r(10\^{}3\^{}n)) By Latex: Assert \mkleeneopen{}lgc(a;logseq(a;b;n - 1)) = log-contraction(a;logseq(a;b;n - 1))\mkleeneclose{}\mcdot{} Home Index