Proof of Nuprl Lemma : rpositive-radd2

Step * 1 1 of Lemma rpositive-radd2

1. x : ℝ@i
2. y : ℝ@i
3. n : ℕ⁺@i
4. ∀m:ℕ⁺. ((n ≤ m) ⇒ (m ≤ (n * (x m))))@i
5. ∀n:ℕ⁺. ∃N:ℕ⁺. ∀m:{N...}. (((-2) * m) ≤ (n * (y m)))@i
6. N : ℕ⁺
7. ∀m:{N...}. (((-2) * m) ≤ ((3 * n) * (y m)))
8. m : ℕ⁺@i
9. imax(3 * n;N) ≤ m@i
10. (3 * n) ≤ m
11. N ≤ m
12. ((-2) * m) ≤ ((3 * n) * (y m))
13. (3 * m) ≤ (3 * n * (x m))
⊢ m ≤ (imax(3 * n;N) * ((x m) + (y m) + 0))
BY
{ Assert ⌜m ≤ ((3 * n) * ((0 + (x m)) + (y m)))⌝⋅ }

1
.....assertion.....
1. x : ℝ@i
2. y : ℝ@i
3. n : ℕ⁺@i
4. ∀m:ℕ⁺. ((n ≤ m) ⇒ (m ≤ (n * (x m))))@i
5. ∀n:ℕ⁺. ∃N:ℕ⁺. ∀m:{N...}. (((-2) * m) ≤ (n * (y m)))@i
6. N : ℕ⁺
7. ∀m:{N...}. (((-2) * m) ≤ ((3 * n) * (y m)))
8. m : ℕ⁺@i
9. imax(3 * n;N) ≤ m@i
10. (3 * n) ≤ m
11. N ≤ m
12. ((-2) * m) ≤ ((3 * n) * (y m))
13. (3 * m) ≤ (3 * n * (x m))
⊢ m ≤ ((3 * n) * ((0 + (x m)) + (y m)))

2
1. x : ℝ@i
2. y : ℝ@i
3. n : ℕ⁺@i
4. ∀m:ℕ⁺. ((n ≤ m) ⇒ (m ≤ (n * (x m))))@i
5. ∀n:ℕ⁺. ∃N:ℕ⁺. ∀m:{N...}. (((-2) * m) ≤ (n * (y m)))@i
6. N : ℕ⁺
7. ∀m:{N...}. (((-2) * m) ≤ ((3 * n) * (y m)))
8. m : ℕ⁺@i
9. imax(3 * n;N) ≤ m@i
10. (3 * n) ≤ m
11. N ≤ m
12. ((-2) * m) ≤ ((3 * n) * (y m))
13. (3 * m) ≤ (3 * n * (x m))
14. m ≤ ((3 * n) * ((0 + (x m)) + (y m)))
⊢ m ≤ (imax(3 * n;N) * ((x m) + (y m) + 0))

Latex:

Latex:
1. x : \mBbbR{}@i 2. y : \mBbbR{}@i 3. n : \mBbbN{}\msupplus{}@i 4. \mforall{}m:\mBbbN{}\msupplus{}. ((n \mleq{} m) {}\mRightarrow{} (m \mleq{} (n * (x m))))@i 5. \mforall{}n:\mBbbN{}\msupplus{}. \mexists{}N:\mBbbN{}\msupplus{}. \mforall{}m:\{N...\}. (((-2) * m) \mleq{} (n * (y m)))@i 6. N : \mBbbN{}\msupplus{} 7. \mforall{}m:\{N...\}. (((-2) * m) \mleq{} ((3 * n) * (y m))) 8. m : \mBbbN{}\msupplus{}@i 9. imax(3 * n;N) \mleq{} m@i 10. (3 * n) \mleq{} m 11. N \mleq{} m 12. ((-2) * m) \mleq{} ((3 * n) * (y m)) 13. (3 * m) \mleq{} (3 * n * (x m)) \mvdash{} m \mleq{} (imax(3 * n;N) * ((x m) + (y m) + 0)) By Latex: Assert \mkleeneopen{}m \mleq{} ((3 * n) * ((0 + (x m)) + (y m)))\mkleeneclose{}\mcdot{} Home Index