Proof of Nuprl Lemma : rational-approx-implies-req

Step * 1 2 1 1 1 1 of Lemma rational-approx-implies-req

1. k : ℕ⁺
2. x : ℝ
3. a : ℕ⁺ ⟶ ℤ
4. ∀n:ℕ⁺. (|x - (r(a n)/r(2 * n))| ≤ (r(k)/r(n)))
5. ∀n,m:ℕ⁺. (|(r(a n)/r(2 * n)) - (r(a m)/r(2 * m))| ≤ ((r(k)/r(n)) + (r(k)/r(m))))
6. k-regular-seq(a)
7. k-regular-seq(a)
8. B : ℕ
9. ∀n:ℕ⁺. (|(accelerate(k;a) n) - a n| ≤ B)
10. n : ℕ⁺
11. |(accelerate(k;a) n) - a n| ≤ B
12. r0 < |r(2 * n)|
⊢ (r(|(accelerate(k;a) n) - a n|)/r(|2 * n|)) ≤ (r(B)/r(2 * n))
BY
{ (Subst' |2 * n| ~ 2 * n 0 THENA Auto) }

1
1. k : ℕ⁺
2. x : ℝ
3. a : ℕ⁺ ⟶ ℤ
4. ∀n:ℕ⁺. (|x - (r(a n)/r(2 * n))| ≤ (r(k)/r(n)))
5. ∀n,m:ℕ⁺. (|(r(a n)/r(2 * n)) - (r(a m)/r(2 * m))| ≤ ((r(k)/r(n)) + (r(k)/r(m))))
6. k-regular-seq(a)
7. k-regular-seq(a)
8. B : ℕ
9. ∀n:ℕ⁺. (|(accelerate(k;a) n) - a n| ≤ B)
10. n : ℕ⁺
11. |(accelerate(k;a) n) - a n| ≤ B
12. r0 < |r(2 * n)|
⊢ (r(|(accelerate(k;a) n) - a n|)/r(2 * n)) ≤ (r(B)/r(2 * n))

Latex:

Latex:
1. k : \mBbbN{}\msupplus{} 2. x : \mBbbR{} 3. a : \mBbbN{}\msupplus{} {}\mrightarrow{} \mBbbZ{} 4. \mforall{}n:\mBbbN{}\msupplus{}. (|x - (r(a n)/r(2 * n))| \mleq{} (r(k)/r(n))) 5. \mforall{}n,m:\mBbbN{}\msupplus{}. (|(r(a n)/r(2 * n)) - (r(a m)/r(2 * m))| \mleq{} ((r(k)/r(n)) + (r(k)/r(m)))) 6. k-regular-seq(a) 7. k-regular-seq(a) 8. B : \mBbbN{} 9. \mforall{}n:\mBbbN{}\msupplus{}. (|(accelerate(k;a) n) - a n| \mleq{} B) 10. n : \mBbbN{}\msupplus{} 11. |(accelerate(k;a) n) - a n| \mleq{} B 12. r0 < |r(2 * n)| \mvdash{} (r(|(accelerate(k;a) n) - a n|)/r(|2 * n|)) \mleq{} (r(B)/r(2 * n)) By Latex: (Subst' |2 * n| \msim{} 2 * n 0 THENA Auto) Home Index