Proof of Nuprl Lemma : rroot-odd-2-regular

Step * 1 1 1 2 1 1 of Lemma rroot-odd-2-regular

1. j : ℕ⁺
2. k : ℕ⁺
3. b : ℕ
4. i : {2...}
5. x : ℝ
6. ¬x j < 0
7. n : ℕ⁺
8. m : ℕ⁺
9. 2^(i - 1) = b ∈ ℕ
10. n^i = k ∈ ℕ⁺
11. m^i = j ∈ ℕ⁺
12. x k < 0
13. v : ℕ
14. iroot(i;b * (-(x k))) = v ∈ ℕ
15. v1 : ℕ
16. iroot(i;b * (x j)) = v1 ∈ ℕ
17. |(m * v) - n * v1| ≤ (2 * (n + m))
⊢ ((m * v) + (n * v1)) ≤ ((4 * m) + (4 * n))
BY
{ Assert ⌜((j * (-(x k))) + (k * (x j))) ≤ (2 * (j + k))⌝⋅ }

1
.....assertion.....
1. j : ℕ⁺
2. k : ℕ⁺
3. b : ℕ
4. i : {2...}
5. x : ℝ
6. ¬x j < 0
7. n : ℕ⁺
8. m : ℕ⁺
9. 2^(i - 1) = b ∈ ℕ
10. n^i = k ∈ ℕ⁺
11. m^i = j ∈ ℕ⁺
12. x k < 0
13. v : ℕ
14. iroot(i;b * (-(x k))) = v ∈ ℕ
15. v1 : ℕ
16. iroot(i;b * (x j)) = v1 ∈ ℕ
17. |(m * v) - n * v1| ≤ (2 * (n + m))
⊢ ((j * (-(x k))) + (k * (x j))) ≤ (2 * (j + k))

2
1. j : ℕ⁺
2. k : ℕ⁺
3. b : ℕ
4. i : {2...}
5. x : ℝ
6. ¬x j < 0
7. n : ℕ⁺
8. m : ℕ⁺
9. 2^(i - 1) = b ∈ ℕ
10. n^i = k ∈ ℕ⁺
11. m^i = j ∈ ℕ⁺
12. x k < 0
13. v : ℕ
14. iroot(i;b * (-(x k))) = v ∈ ℕ
15. v1 : ℕ
16. iroot(i;b * (x j)) = v1 ∈ ℕ
17. |(m * v) - n * v1| ≤ (2 * (n + m))
18. ((j * (-(x k))) + (k * (x j))) ≤ (2 * (j + k))
⊢ ((m * v) + (n * v1)) ≤ ((4 * m) + (4 * n))

Latex:

Latex:
1. j : \mBbbN{}\msupplus{} 2. k : \mBbbN{}\msupplus{} 3. b : \mBbbN{} 4. i : \{2...\} 5. x : \mBbbR{} 6. \mneg{}x j < 0 7. n : \mBbbN{}\msupplus{} 8. m : \mBbbN{}\msupplus{} 9. 2\^{}(i - 1) = b 10. n\^{}i = k 11. m\^{}i = j 12. x k < 0 13. v : \mBbbN{} 14. iroot(i;b * (-(x k))) = v 15. v1 : \mBbbN{} 16. iroot(i;b * (x j)) = v1 17. |(m * v) - n * v1| \mleq{} (2 * (n + m)) \mvdash{} ((m * v) + (n * v1)) \mleq{} ((4 * m) + (4 * n)) By Latex: Assert \mkleeneopen{}((j * (-(x k))) + (k * (x j))) \mleq{} (2 * (j + k))\mkleeneclose{}\mcdot{} Home Index