Proof of Nuprl Lemma : Kummer-criterion

Step * 2 2 1 2 of Lemma Kummer-criterion

.....antecedent.....
1. a : ℕ ⟶ ℝ
2. x : ℕ ⟶ ℝ
3. lim n→∞.a[n] * x[n] = r0
⇒ (∃c:{c:ℝ| r0 < c}
     ∃N:ℕ
      ((∀n:{N...}. ((r0 < a[n]) ∧ (r0 < x[n])))
      ∧ (∀n:{N...}. ((r0 < a[n]) ∧ (c ≤ ((a[n] * x[n]/x[n + 1]) - a[n + 1]))))))
⇒ Σn.x[n]↓
4. N : ℕ
5. ∀n:{N...}. ((r0 < a[n]) ∧ (r0 < x[n]))
6. ∀n:{N...}. (((a[n] * x[n]/x[n + 1]) - a[n + 1]) ≤ r0)
7. Σn.(r1/a[N + n])↑
8. ∀n:{N...}. ((a[N] * x[N]) ≤ (a[n] * x[n]))

⊢ ∃N@0:ℕ. ∀n:{N@0...}. ((r0 ≤ ((a[N] * x[N]) * (r1/a[N + n]))) ∧ (((a[N] * x[N]) * (r1/a[N + n])) ≤ x[N + n]))

BY
{ ((Assert (r0 < a[N]) ∧ (r0 < x[N]) BY
          Auto)
   THEN D 0 With ⌜N⌝
   THEN Auto
   THEN (Assert r0 < a[N + n] BY
               Auto)
   THEN Auto
   THEN nRMul ⌜a[N + n]⌝ 0⋅
   THEN Auto) }

Latex:

Latex:
.....antecedent..... 1. a : \mBbbN{} {}\mrightarrow{} \mBbbR{} 2. x : \mBbbN{} {}\mrightarrow{} \mBbbR{} 3. lim n\mrightarrow{}\minfty{}.a[n] * x[n] = r0 {}\mRightarrow{} (\mexists{}c:\{c:\mBbbR{}| r0 < c\} \mexists{}N:\mBbbN{} ((\mforall{}n:\{N...\}. ((r0 < a[n]) \mwedge{} (r0 < x[n]))) \mwedge{} (\mforall{}n:\{N...\}. ((r0 < a[n]) \mwedge{} (c \mleq{} ((a[n] * x[n]/x[n + 1]) - a[n + 1])))))) {}\mRightarrow{} \mSigma{}n.x[n]\mdownarrow{} 4. N : \mBbbN{} 5. \mforall{}n:\{N...\}. ((r0 < a[n]) \mwedge{} (r0 < x[n])) 6. \mforall{}n:\{N...\}. (((a[n] * x[n]/x[n + 1]) - a[n + 1]) \mleq{} r0) 7. \mSigma{}n.(r1/a[N + n])\muparrow{} 8. \mforall{}n:\{N...\}. ((a[N] * x[N]) \mleq{} (a[n] * x[n])) \mvdash{} \mexists{}N@0:\mBbbN{} \mforall{}n:\{N@0...\} ((r0 \mleq{} ((a[N] * x[N]) * (r1/a[N + n]))) \mwedge{} (((a[N] * x[N]) * (r1/a[N + n])) \mleq{} x[N + n])) By Latex: ((Assert (r0 < a[N]) \mwedge{} (r0 < x[N]) BY Auto) THEN D 0 With \mkleeneopen{}N\mkleeneclose{} THEN Auto THEN (Assert r0 < a[N + n] BY Auto) THEN Auto THEN nRMul \mkleeneopen{}a[N + n]\mkleeneclose{} 0\mcdot{} THEN Auto) Home Index