Proof of Nuprl Lemma : closures-meet-sq

Step * 2 1 2 2 1 of Lemma closures-meet-sq

1. [P] : ℝ ⟶ ℙ
2. [Q] : ℝ ⟶ ℙ
3. a0 : {a:ℝ| P a}
4. b0 : ℝ
5. [%4] : (Q b0) ∧ (a0 ≤ b0)
6. c : ℝ
7. [%5] : (r0 ≤ c) ∧ (c < r1)
8. s : ℕ ⟶ (a:{a:ℝ| P a}  × {b:ℝ| (Q b) ∧ (a ≤ b)} )
9. ∀n:ℕ
     (((fst(s[n])) ≤ (fst(s[n + 1])))
     ∧ ((snd(s[n + 1])) ≤ (snd(s[n])))
     ∧ (((snd(s[n + 1])) - fst(s[n + 1])) ≤ (((snd(s[n])) - fst(s[n])) * c)))
10. ∀n:ℕ. r0≤(snd(s[n])) - fst(s[n])≤((snd(s[0])) - fst(s[0])) * c^n
11. y : ℝ
12. lim n→∞.snd(s[n]) = y
13. lim n→∞.fst(s[n]) = y
⊢ ∃x:ℕ ⟶ ℝ. (lim n→∞.x[n] = y ∧ (∀n:ℕ. ((λz.(↓P z)) x[n])))
BY

{ ((InstConcl [⌜λn.(fst(s[n]))⌝]⋅ THEN Auto) THEN RepUR ``so_apply`` 0 THEN (GenConclTerm ⌜s n⌝⋅ THENA Auto)) }

1
1. [P] : ℝ ⟶ ℙ
2. [Q] : ℝ ⟶ ℙ
3. a0 : {a:ℝ| P a}
4. b0 : ℝ
5. [%4] : (Q b0) ∧ (a0 ≤ b0)
6. c : ℝ
7. [%5] : (r0 ≤ c) ∧ (c < r1)
8. s : ℕ ⟶ (a:{a:ℝ| P a}  × {b:ℝ| (Q b) ∧ (a ≤ b)} )
9. ∀n:ℕ
     (((fst(s[n])) ≤ (fst(s[n + 1])))
     ∧ ((snd(s[n + 1])) ≤ (snd(s[n])))
     ∧ (((snd(s[n + 1])) - fst(s[n + 1])) ≤ (((snd(s[n])) - fst(s[n])) * c)))
10. ∀n:ℕ. r0≤(snd(s[n])) - fst(s[n])≤((snd(s[0])) - fst(s[0])) * c^n
11. y : ℝ
12. lim n→∞.snd(s[n]) = y
13. lim n→∞.fst(s[n]) = y
14. lim n→∞.λn.(fst(s[n]))[n] = y
15. n : ℕ
16. v : a:{a:ℝ| P a}  × {b:ℝ| (Q b) ∧ (a ≤ b)}
17. (s n) = v ∈ (a:{a:ℝ| P a}  × {b:ℝ| (Q b) ∧ (a ≤ b)} )
⊢ ↓P (fst(v))

Latex:

Latex:
1. [P] : \mBbbR{} {}\mrightarrow{} \mBbbP{} 2. [Q] : \mBbbR{} {}\mrightarrow{} \mBbbP{} 3. a0 : \{a:\mBbbR{}| P a\} 4. b0 : \mBbbR{} 5. [\%4] : (Q b0) \mwedge{} (a0 \mleq{} b0) 6. c : \mBbbR{} 7. [\%5] : (r0 \mleq{} c) \mwedge{} (c < r1) 8. s : \mBbbN{} {}\mrightarrow{} (a:\{a:\mBbbR{}| P a\} \mtimes{} \{b:\mBbbR{}| (Q b) \mwedge{} (a \mleq{} b)\} ) 9. \mforall{}n:\mBbbN{} (((fst(s[n])) \mleq{} (fst(s[n + 1]))) \mwedge{} ((snd(s[n + 1])) \mleq{} (snd(s[n]))) \mwedge{} (((snd(s[n + 1])) - fst(s[n + 1])) \mleq{} (((snd(s[n])) - fst(s[n])) * c))) 10. \mforall{}n:\mBbbN{}. r0\mleq{}(snd(s[n])) - fst(s[n])\mleq{}((snd(s[0])) - fst(s[0])) * c\^{}n 11. y : \mBbbR{} 12. lim n\mrightarrow{}\minfty{}.snd(s[n]) = y 13. lim n\mrightarrow{}\minfty{}.fst(s[n]) = y \mvdash{} \mexists{}x:\mBbbN{} {}\mrightarrow{} \mBbbR{}. (lim n\mrightarrow{}\minfty{}.x[n] = y \mwedge{} (\mforall{}n:\mBbbN{}. ((\mlambda{}z.(\mdownarrow{}P z)) x[n]))) By Latex: ((InstConcl [\mkleeneopen{}\mlambda{}n.(fst(s[n]))\mkleeneclose{}]\mcdot{} THEN Auto) THEN RepUR ``so\_apply`` 0 THEN (GenConclTerm \mkleeneopen{}s n\mkleeneclose{}\mcdot{} THENA Auto)) Home Index