Proof of Nuprl Lemma : slln-lemma1

Step * 2 of Lemma slln-lemma1

1. p : FinProbSpace@i
2. f : ℕ ─→ ℕ@i
3. X : n:ℕ ─→ RandomVariable(p;f[n])@i
4. s : ℚ@i
5. k : ℚ@i
6. ∀n:ℕ. ∀i:ℕn. f[i] < f[n]

7. ∀n:ℕ. ((E(f[n];X[n]) = 0 ∈ ℚ) ∧ (E(f[n];(x.x * x) o X[n]) = s ∈ ℚ) ∧ (E(f[n];(x.(x * x) * x * x) o X[n]) = k ∈ ℚ))

8. ∀n:ℕ. ∀i:ℕn. rv-disjoint(p;f[n];X[i];X[n])@i
9. 0 ≤ s

⊢ ∃B:ℚ. ((0 ≤ B) ∧ (∀n:ℕ. (E(f[n];(x.(x * x) * x * x) o rv-partial-sum(n;i.X[i])) ≤ (B * n * n))))

BY
{ Assert ⌈∃B:ℚ. ((k ≤ B) ∧ (s ≤ B))⌉⋅ }

1
.....assertion.....
1. p : FinProbSpace@i
2. f : ℕ ─→ ℕ@i
3. X : n:ℕ ─→ RandomVariable(p;f[n])@i
4. s : ℚ@i
5. k : ℚ@i
6. ∀n:ℕ. ∀i:ℕn. f[i] < f[n]

7. ∀n:ℕ. ((E(f[n];X[n]) = 0 ∈ ℚ) ∧ (E(f[n];(x.x * x) o X[n]) = s ∈ ℚ) ∧ (E(f[n];(x.(x * x) * x * x) o X[n]) = k ∈ ℚ))

8. ∀n:ℕ. ∀i:ℕn. rv-disjoint(p;f[n];X[i];X[n])@i
9. 0 ≤ s
⊢ ∃B:ℚ. ((k ≤ B) ∧ (s ≤ B))

2
1. p : FinProbSpace@i
2. f : ℕ ─→ ℕ@i
3. X : n:ℕ ─→ RandomVariable(p;f[n])@i
4. s : ℚ@i
5. k : ℚ@i
6. ∀n:ℕ. ∀i:ℕn. f[i] < f[n]

7. ∀n:ℕ. ((E(f[n];X[n]) = 0 ∈ ℚ) ∧ (E(f[n];(x.x * x) o X[n]) = s ∈ ℚ) ∧ (E(f[n];(x.(x * x) * x * x) o X[n]) = k ∈ ℚ))

8. ∀n:ℕ. ∀i:ℕn. rv-disjoint(p;f[n];X[i];X[n])@i
9. 0 ≤ s
10. ∃B:ℚ. ((k ≤ B) ∧ (s ≤ B))

⊢ ∃B:ℚ. ((0 ≤ B) ∧ (∀n:ℕ. (E(f[n];(x.(x * x) * x * x) o rv-partial-sum(n;i.X[i])) ≤ (B * n * n))))

Latex:

1. p : FinProbSpace@i 2. f : \mBbbN{} {}\mrightarrow{} \mBbbN{}@i 3. X : n:\mBbbN{} {}\mrightarrow{} RandomVariable(p;f[n])@i 4. s : \mBbbQ{}@i 5. k : \mBbbQ{}@i 6. \mforall{}n:\mBbbN{}. \mforall{}i:\mBbbN{}n. f[i] < f[n] 7. \mforall{}n:\mBbbN{} ((E(f[n];X[n]) = 0) \mwedge{} (E(f[n];(x.x * x) o X[n]) = s) \mwedge{} (E(f[n];(x.(x * x) * x * x) o X[n]) = k)) 8. \mforall{}n:\mBbbN{}. \mforall{}i:\mBbbN{}n. rv-disjoint(p;f[n];X[i];X[n])@i 9. 0 \mleq{} s \mvdash{} \mexists{}B:\mBbbQ{}. ((0 \mleq{} B) \mwedge{} (\mforall{}n:\mBbbN{}. (E(f[n];(x.(x * x) * x * x) o rv-partial-sum(n;i.X[i])) \mleq{} (B * n * n)))) By Assert \mkleeneopen{}\mexists{}B:\mBbbQ{}. ((k \mleq{} B) \mwedge{} (s \mleq{} B))\mkleeneclose{}\mcdot{} Home Index