Proof of Nuprl Lemma : prod-metric-space-complete

Step * 1 1 1 of Lemma prod-metric-space-complete

1. k : ℕ
2. X : ℕk ⟶ MetricSpace
3. ∀i:ℕk. mcomplete(X i)
4. prod-metric(k;λi.(snd((X i)))) ∈ metric(i:ℕk ⟶ (fst((X i))))
5. x : ℕ ⟶ i:ℕk ⟶ (fst((X i)))
6. mcauchy(prod-metric(k;λi.(snd((X i))));n.x n)
7. ∀i:ℕk. mcauchy(snd((X i));n.x n i)
8. ∀i:ℕk. x n i↓ as n→∞
⊢ x n↓ as n→∞
BY
{ (Unfold `mconverges` -1
   THEN (Skolemize (-1) `f' THENA Auto)
   THEN (D 0 With ⌜f⌝  THENA Auto)
   THEN (D 0 THENA Auto)
   THEN RenameVar `m' (-1)) }

1
1. k : ℕ
2. X : ℕk ⟶ MetricSpace
3. ∀i:ℕk. mcomplete(X i)
4. prod-metric(k;λi.(snd((X i)))) ∈ metric(i:ℕk ⟶ (fst((X i))))
5. x : ℕ ⟶ i:ℕk ⟶ (fst((X i)))
6. mcauchy(prod-metric(k;λi.(snd((X i))));n.x n)
7. ∀i:ℕk. mcauchy(snd((X i));n.x n i)
8. ∀i:ℕk. ∃y:fst((X i)). lim n→∞.x n i = y
9. f : i:ℕk ⟶ (fst((X i)))
10. ∀i:ℕk. lim n→∞.x n i = f i
11. m : ℕ⁺
⊢ ∃N:ℕ [(∀n:ℕ. ((N ≤ n) ⇒ (mdist(prod-metric(k;λi.(snd((X i))));x n;f) ≤ (r1/r(m)))))]

Latex:

Latex:
1. k : \mBbbN{} 2. X : \mBbbN{}k {}\mrightarrow{} MetricSpace 3. \mforall{}i:\mBbbN{}k. mcomplete(X i) 4. prod-metric(k;\mlambda{}i.(snd((X i)))) \mmember{} metric(i:\mBbbN{}k {}\mrightarrow{} (fst((X i)))) 5. x : \mBbbN{} {}\mrightarrow{} i:\mBbbN{}k {}\mrightarrow{} (fst((X i))) 6. mcauchy(prod-metric(k;\mlambda{}i.(snd((X i))));n.x n) 7. \mforall{}i:\mBbbN{}k. mcauchy(snd((X i));n.x n i) 8. \mforall{}i:\mBbbN{}k. x n i\mdownarrow{} as n\mrightarrow{}\minfty{} \mvdash{} x n\mdownarrow{} as n\mrightarrow{}\minfty{} By Latex: (Unfold `mconverges` -1 THEN (Skolemize (-1) `f' THENA Auto) THEN (D 0 With \mkleeneopen{}f\mkleeneclose{} THENA Auto) THEN (D 0 THENA Auto) THEN RenameVar `m' (-1)) Home Index