Proof of Nuprl Lemma : i-member-proper-iff

Step * 3 1 1 1 of Lemma i-member-proper-iff

1. u : ℝ
2. v : ℝ
3. r : ℝ
4. b : {2...}
5. r(-b) < r
6. r < r(b)
7. m1 : ℕ⁺
8. u ≤ (r - (r1/r(m1)))
9. m : ℕ⁺
10. r ≤ (v - (r1/r(m)))
11. u < v
12. k : ℕ⁺
13. u < (v - (r1/r(k)))

14. ∃N:ℕ⁺. (((r1/r(N)) ≤ (r1/r(2 * k))) ∧ ((r1/r(N)) ≤ (r1/r(m))) ∧ ((r1/r(N)) ≤ (r1/r(m1))))

⊢ ∃n:ℕ⁺. (iproper([u + (r1/r(n)), v - (r1/r(n))]) ∧ ((u + (r1/r(n))) ≤ r) ∧ (r ≤ (v - (r1/r(n)))))

BY
{ (ParallelLast THEN Auto THEN RepUR ``iproper`` 0 THEN Auto) }

1
1. u : ℝ
2. v : ℝ
3. r : ℝ
4. b : {2...}
5. r(-b) < r
6. r < r(b)
7. m1 : ℕ⁺
8. u ≤ (r - (r1/r(m1)))
9. m : ℕ⁺
10. r ≤ (v - (r1/r(m)))
11. u < v
12. k : ℕ⁺
13. u < (v - (r1/r(k)))
14. N : ℕ⁺
15. (r1/r(N)) ≤ (r1/r(2 * k))
16. (r1/r(N)) ≤ (r1/r(m))
17. (r1/r(N)) ≤ (r1/r(m1))
18. i-finite([u + (r1/r(N)), v - (r1/r(N))])
⊢ (u + (r1/r(N))) < (v - (r1/r(N)))

2
1. u : ℝ
2. v : ℝ
3. r : ℝ
4. b : {2...}
5. r(-b) < r
6. r < r(b)
7. m1 : ℕ⁺
8. u ≤ (r - (r1/r(m1)))
9. m : ℕ⁺
10. r ≤ (v - (r1/r(m)))
11. u < v
12. k : ℕ⁺
13. u < (v - (r1/r(k)))
14. N : ℕ⁺
15. (r1/r(N)) ≤ (r1/r(2 * k))
16. (r1/r(N)) ≤ (r1/r(m))
17. (r1/r(N)) ≤ (r1/r(m1))
18. iproper([u + (r1/r(N)), v - (r1/r(N))])
⊢ (u + (r1/r(N))) ≤ r

Latex:

Latex:
1. u : \mBbbR{} 2. v : \mBbbR{} 3. r : \mBbbR{} 4. b : \{2...\} 5. r(-b) < r 6. r < r(b) 7. m1 : \mBbbN{}\msupplus{} 8. u \mleq{} (r - (r1/r(m1))) 9. m : \mBbbN{}\msupplus{} 10. r \mleq{} (v - (r1/r(m))) 11. u < v 12. k : \mBbbN{}\msupplus{} 13. u < (v - (r1/r(k))) 14. \mexists{}N:\mBbbN{}\msupplus{}. (((r1/r(N)) \mleq{} (r1/r(2 * k))) \mwedge{} ((r1/r(N)) \mleq{} (r1/r(m))) \mwedge{} ((r1/r(N)) \mleq{} (r1/r(m1)))) \mvdash{} \mexists{}n:\mBbbN{}\msupplus{}. (iproper([u + (r1/r(n)), v - (r1/r(n))]) \mwedge{} ((u + (r1/r(n))) \mleq{} r) \mwedge{} (r \mleq{} (v - (r1/r(n))))) By Latex: (ParallelLast THEN Auto THEN RepUR ``iproper`` 0 THEN Auto) Home Index