Proof of Nuprl Lemma : converges-iff-cauchy

Step * 2 1 1 1 1 1 of Lemma converges-iff-cauchy

1. x : ℕ ⟶ ℝ
2. ∀k:ℕ⁺. (∃N:ℕ [(∀n,m:ℕ. ((N ≤ n) ⇒ (N ≤ m) ⇒ (|x[n] - x[m]| ≤ (r1/r(k)))))])
3. f : k:ℕ⁺ ⟶ ℕ
4. ∀k:ℕ⁺. ∀n,m:ℕ. (((f k) ≤ n) ⇒ ((f k) ≤ m) ⇒ (|x[n] - x[m]| ≤ (r1/r(k))))
5. n : ℕ⁺
6. m : ℕ⁺
7. (f n) ≤ (f m)
8. |x[f n] - x[f m]| ≤ (r1/r(n))
⊢ (r1/r(n)) ≤ ((r1/r(n)) + (r1/r(m)))
BY
{ ((Assert r0 ≤ (r1/r(m)) BY Auto) THEN Auto) }

Latex:

Latex:
1. x : \mBbbN{} {}\mrightarrow{} \mBbbR{} 2. \mforall{}k:\mBbbN{}\msupplus{}. (\mexists{}N:\mBbbN{} [(\mforall{}n,m:\mBbbN{}. ((N \mleq{} n) {}\mRightarrow{} (N \mleq{} m) {}\mRightarrow{} (|x[n] - x[m]| \mleq{} (r1/r(k)))))]) 3. f : k:\mBbbN{}\msupplus{} {}\mrightarrow{} \mBbbN{} 4. \mforall{}k:\mBbbN{}\msupplus{}. \mforall{}n,m:\mBbbN{}. (((f k) \mleq{} n) {}\mRightarrow{} ((f k) \mleq{} m) {}\mRightarrow{} (|x[n] - x[m]| \mleq{} (r1/r(k)))) 5. n : \mBbbN{}\msupplus{} 6. m : \mBbbN{}\msupplus{} 7. (f n) \mleq{} (f m) 8. |x[f n] - x[f m]| \mleq{} (r1/r(n)) \mvdash{} (r1/r(n)) \mleq{} ((r1/r(n)) + (r1/r(m))) By Latex: ((Assert r0 \mleq{} (r1/r(m)) BY Auto) THEN Auto) Home Index