Proof of Nuprl Lemma : common-limit-midpoints

Step * 1 1 1 2 1 of Lemma common-limit-midpoints

1. a : ℕ ⟶ ℝ
2. b : ℕ ⟶ ℝ

3. ∀n:ℕ. (((a[n + 1] = a[n]) ∧ (b[n + 1] = (a[n] + b[n]/r(2)))) ∨ ((a[n + 1] = (a[n] + b[n]/r(2))) ∧ (b[n + 1] = b[n])))

4. ∀n:ℕ. ((r(2^n) * |a[n] - b[n]|) ≤ |a[0] - b[0]|)
5. ∀n,d:ℕ.
     (((r(2^n) * |a[n] - a[n + d]|) ≤ |a[0] - b[0]|)
     ∧ ((r(2^n) * |a[n] - b[n + d]|) ≤ |a[0] - b[0]|)
     ∧ ((r(2^n) * |b[n] - a[n + d]|) ≤ |a[0] - b[0]|)
     ∧ ((r(2^n) * |b[n] - b[n + d]|) ≤ |a[0] - b[0]|))
6. n : ℕ
7. r(-n) ≤ |a[0] - b[0]|
8. |a[0] - b[0]| ≤ r(n)
9. y : ℝ
10. ∀k:ℕ⁺. (∃N:ℕ [(∀n:ℕ. ((N ≤ n) ⇒ (|a[n] - y| ≤ (r1/r(k)))))])
11. k : ℕ⁺
12. ∃N:ℕ [(∀n:ℕ. ((N ≤ n) ⇒ (|a[n] - y| ≤ (r1/r(2 * k)))))]
⊢ ∃N:ℕ [(∀n:ℕ. ((N ≤ n) ⇒ (|b[n] - y| ≤ (r1/r(k)))))]
BY
{ Assert ⌜∃N:ℕ [(∀n:ℕ. ((N ≤ n) ⇒ (|a[n] - b[n]| ≤ (r1/r(2 * k)))))]⌝⋅ }

1
.....assertion.....
1. a : ℕ ⟶ ℝ
2. b : ℕ ⟶ ℝ

3. ∀n:ℕ. (((a[n + 1] = a[n]) ∧ (b[n + 1] = (a[n] + b[n]/r(2)))) ∨ ((a[n + 1] = (a[n] + b[n]/r(2))) ∧ (b[n + 1] = b[n])))

4. ∀n:ℕ. ((r(2^n) * |a[n] - b[n]|) ≤ |a[0] - b[0]|)
5. ∀n,d:ℕ.
     (((r(2^n) * |a[n] - a[n + d]|) ≤ |a[0] - b[0]|)
     ∧ ((r(2^n) * |a[n] - b[n + d]|) ≤ |a[0] - b[0]|)
     ∧ ((r(2^n) * |b[n] - a[n + d]|) ≤ |a[0] - b[0]|)
     ∧ ((r(2^n) * |b[n] - b[n + d]|) ≤ |a[0] - b[0]|))
6. n : ℕ
7. r(-n) ≤ |a[0] - b[0]|
8. |a[0] - b[0]| ≤ r(n)
9. y : ℝ
10. ∀k:ℕ⁺. (∃N:ℕ [(∀n:ℕ. ((N ≤ n) ⇒ (|a[n] - y| ≤ (r1/r(k)))))])
11. k : ℕ⁺
12. ∃N:ℕ [(∀n:ℕ. ((N ≤ n) ⇒ (|a[n] - y| ≤ (r1/r(2 * k)))))]
⊢ ∃N:ℕ [(∀n:ℕ. ((N ≤ n) ⇒ (|a[n] - b[n]| ≤ (r1/r(2 * k)))))]

2
1. a : ℕ ⟶ ℝ
2. b : ℕ ⟶ ℝ

3. ∀n:ℕ. (((a[n + 1] = a[n]) ∧ (b[n + 1] = (a[n] + b[n]/r(2)))) ∨ ((a[n + 1] = (a[n] + b[n]/r(2))) ∧ (b[n + 1] = b[n])))

4. ∀n:ℕ. ((r(2^n) * |a[n] - b[n]|) ≤ |a[0] - b[0]|)
5. ∀n,d:ℕ.
     (((r(2^n) * |a[n] - a[n + d]|) ≤ |a[0] - b[0]|)
     ∧ ((r(2^n) * |a[n] - b[n + d]|) ≤ |a[0] - b[0]|)
     ∧ ((r(2^n) * |b[n] - a[n + d]|) ≤ |a[0] - b[0]|)
     ∧ ((r(2^n) * |b[n] - b[n + d]|) ≤ |a[0] - b[0]|))
6. n : ℕ
7. r(-n) ≤ |a[0] - b[0]|
8. |a[0] - b[0]| ≤ r(n)
9. y : ℝ
10. ∀k:ℕ⁺. (∃N:ℕ [(∀n:ℕ. ((N ≤ n) ⇒ (|a[n] - y| ≤ (r1/r(k)))))])
11. k : ℕ⁺
12. ∃N:ℕ [(∀n:ℕ. ((N ≤ n) ⇒ (|a[n] - y| ≤ (r1/r(2 * k)))))]
13. ∃N:ℕ [(∀n:ℕ. ((N ≤ n) ⇒ (|a[n] - b[n]| ≤ (r1/r(2 * k)))))]
⊢ ∃N:ℕ [(∀n:ℕ. ((N ≤ n) ⇒ (|b[n] - y| ≤ (r1/r(k)))))]

Latex:

Latex:
1. a : \mBbbN{} {}\mrightarrow{} \mBbbR{} 2. b : \mBbbN{} {}\mrightarrow{} \mBbbR{} 3. \mforall{}n:\mBbbN{} (((a[n + 1] = a[n]) \mwedge{} (b[n + 1] = (a[n] + b[n]/r(2)))) \mvee{} ((a[n + 1] = (a[n] + b[n]/r(2))) \mwedge{} (b[n + 1] = b[n]))) 4. \mforall{}n:\mBbbN{}. ((r(2\^{}n) * |a[n] - b[n]|) \mleq{} |a[0] - b[0]|) 5. \mforall{}n,d:\mBbbN{}. (((r(2\^{}n) * |a[n] - a[n + d]|) \mleq{} |a[0] - b[0]|) \mwedge{} ((r(2\^{}n) * |a[n] - b[n + d]|) \mleq{} |a[0] - b[0]|) \mwedge{} ((r(2\^{}n) * |b[n] - a[n + d]|) \mleq{} |a[0] - b[0]|) \mwedge{} ((r(2\^{}n) * |b[n] - b[n + d]|) \mleq{} |a[0] - b[0]|)) 6. n : \mBbbN{} 7. r(-n) \mleq{} |a[0] - b[0]| 8. |a[0] - b[0]| \mleq{} r(n) 9. y : \mBbbR{} 10. \mforall{}k:\mBbbN{}\msupplus{}. (\mexists{}N:\mBbbN{} [(\mforall{}n:\mBbbN{}. ((N \mleq{} n) {}\mRightarrow{} (|a[n] - y| \mleq{} (r1/r(k)))))]) 11. k : \mBbbN{}\msupplus{} 12. \mexists{}N:\mBbbN{} [(\mforall{}n:\mBbbN{}. ((N \mleq{} n) {}\mRightarrow{} (|a[n] - y| \mleq{} (r1/r(2 * k)))))] \mvdash{} \mexists{}N:\mBbbN{} [(\mforall{}n:\mBbbN{}. ((N \mleq{} n) {}\mRightarrow{} (|b[n] - y| \mleq{} (r1/r(k)))))] By Latex: Assert \mkleeneopen{}\mexists{}N:\mBbbN{} [(\mforall{}n:\mBbbN{}. ((N \mleq{} n) {}\mRightarrow{} (|a[n] - b[n]| \mleq{} (r1/r(2 * k)))))]\mkleeneclose{}\mcdot{} Home Index