Proof of Nuprl Lemma : partition-refinement-sum

Step * 1 1 2 1 3 6 1 1 of Lemma partition-refinement-sum

1. I : Interval@i
2. icompact(I)@i
3. f : I ⟶ℝ@i
4. mc : f[x] continuous for x ∈ I@i
5. ∀m,n:ℕ⁺.
     (mc m n ∈ {d:ℝ| (r0 < d) ∧ (∀x,y:ℝ.  ((x ∈ I) ⇒ (y ∈ I) ⇒ (|x - y| ≤ d) ⇒ (|f[x] - f[y]| ≤ (r1/r(n)))))} )
6. K : ℕ
7. ∀K:ℕK. ∀J:Interval.
     (icompact(J)
     ⇒ J ⊆ I
     ⇒ (∀q:partition(J)
           ((||q|| ≤ K)
           ⇒ (∀n:ℕ⁺
                 ((partition-mesh(J;q) ≤ (mc 1 n))
                 ⇒ frs-increasing(q)
                 ⇒ (∀p:partition(J). ∀x:partition-choice(full-partition(J;p)).
                     ∀y:partition-choice(full-partition(J;q)).
                       (p refines q
                       ⇒ (|partition-sum(f;y;full-partition(J;q))

                          - partition-sum(f;x;full-partition(J;p))| ≤ ((r1/r(n)) * |J|)))))))))

8. J : Interval@i
9. icompact(J)@i
10. J ⊆ I @i
11. u : ℝ
12. v : ℝ List
13. partitions(J;[u / v])@i
14. ||[u / v]|| ≤ K@i
15. n : ℕ⁺@i
16. partition-mesh(J;[u / v]) ≤ (mc 1 n)@i
17. frs-increasing([u / v])@i
18. p : partition(J)@i
19. x : partition-choice(full-partition(J;p))@i
20. y : partition-choice(full-partition(J;[u / v]))@i
21. p refines [u / v]@i
22. partitions([left-endpoint(J), u];[])
23. partitions([u, right-endpoint(J)];v)
24. left-endpoint(J) ≤ u
25. u ≤ right-endpoint(J)
26. partition-mesh([left-endpoint(J), u];[]) ≤ partition-mesh(J;[u / v])
27. partition-mesh([u, right-endpoint(J)];v) ≤ partition-mesh(J;[u / v])
28. u ∈ J
29. left-endpoint(J) ∈ J
30. right-endpoint(J) ∈ J
31. ∀p:partition([u, right-endpoint(J)]). ∀x:partition-choice(full-partition([u, right-endpoint(J)];p)).
    ∀y:partition-choice(full-partition([u, right-endpoint(J)];v)).
      (p refines v
      ⇒ (|partition-sum(f;y;full-partition([u, right-endpoint(J)];v))

         - partition-sum(f;x;full-partition([u, right-endpoint(J)];p))| ≤ ((r1/r(n)) * |[u, right-endpoint(J)]|)))

32. ∀p:partition([left-endpoint(J), u]). ∀x:partition-choice(full-partition([left-endpoint(J), u];p)).
    ∀y:partition-choice(full-partition([left-endpoint(J), u];[])).
      (p refines []
      ⇒ (|partition-sum(f;y;full-partition([left-endpoint(J), u];[]))

         - partition-sum(f;x;full-partition([left-endpoint(J), u];p))| ≤ ((r1/r(n)) * |[left-endpoint(J), u]|)))

33. q : partition([left-endpoint(J), u])
34. r : partition([u, right-endpoint(J)])
35. q refines []
36. r refines v
37. x1 : ℝ
38. x1 = u
39. p = (q @ [x1 / r]) ∈ (ℝ List)
40. ||r|| + ||q|| < ||p||
41. is-partition-choice(full-partition([left-endpoint(J), u];q);x)
∧ is-partition-choice(full-partition([u, right-endpoint(J)];r);λi.(x (i + ||q|| + 1)))
42. icompact([left-endpoint(J), u]) ∧ icompact([u, right-endpoint(J)])

⊢ |partition-sum(f;y;full-partition(J;[u / v])) - partition-sum(f;x;full-partition(J;p))| ≤ ((r1/r(n)) * |J|)

BY
{ (Assert (||r|| + ||q|| + 1) + 1 < ||full-partition(J;p)|| BY
         (RepUR ``full-partition`` 0 THEN Auto')) }

1
1. I : Interval@i
2. icompact(I)@i
3. f : I ⟶ℝ@i
4. mc : f[x] continuous for x ∈ I@i
5. ∀m,n:ℕ⁺.
     (mc m n ∈ {d:ℝ| (r0 < d) ∧ (∀x,y:ℝ.  ((x ∈ I) ⇒ (y ∈ I) ⇒ (|x - y| ≤ d) ⇒ (|f[x] - f[y]| ≤ (r1/r(n)))))} )
6. K : ℕ
7. ∀K:ℕK. ∀J:Interval.
     (icompact(J)
     ⇒ J ⊆ I
     ⇒ (∀q:partition(J)
           ((||q|| ≤ K)
           ⇒ (∀n:ℕ⁺
                 ((partition-mesh(J;q) ≤ (mc 1 n))
                 ⇒ frs-increasing(q)
                 ⇒ (∀p:partition(J). ∀x:partition-choice(full-partition(J;p)).
                     ∀y:partition-choice(full-partition(J;q)).
                       (p refines q
                       ⇒ (|partition-sum(f;y;full-partition(J;q))

                          - partition-sum(f;x;full-partition(J;p))| ≤ ((r1/r(n)) * |J|)))))))))

         - partition-sum(f;x;full-partition([u, right-endpoint(J)];p))| ≤ ((r1/r(n)) * |[u, right-endpoint(J)]|)))

         - partition-sum(f;x;full-partition([left-endpoint(J), u];p))| ≤ ((r1/r(n)) * |[left-endpoint(J), u]|)))

⊢ |partition-sum(f;y;full-partition(J;[u / v])) - partition-sum(f;x;full-partition(J;p))| ≤ ((r1/r(n)) * |J|)

Latex:

Latex:
1. I : Interval@i 2. icompact(I)@i 3. f : I {}\mrightarrow{}\mBbbR{}@i 4. mc : f[x] continuous for x \mmember{} I@i 5. \mforall{}m,n:\mBbbN{}\msupplus{}. (mc m n \mmember{} \{d:\mBbbR{}| (r0 < d) \mwedge{} (\mforall{}x,y:\mBbbR{}. ((x \mmember{} I) {}\mRightarrow{} (y \mmember{} I) {}\mRightarrow{} (|x - y| \mleq{} d) {}\mRightarrow{} (|f[x] - f[y]| \mleq{} (r1/r(n)))))\} ) 6. K : \mBbbN{} 7. \mforall{}K:\mBbbN{}K. \mforall{}J:Interval. (icompact(J) {}\mRightarrow{} J \msubseteq{} I {}\mRightarrow{} (\mforall{}q:partition(J) ((||q|| \mleq{} K) {}\mRightarrow{} (\mforall{}n:\mBbbN{}\msupplus{} ((partition-mesh(J;q) \mleq{} (mc 1 n)) {}\mRightarrow{} frs-increasing(q) {}\mRightarrow{} (\mforall{}p:partition(J). \mforall{}x:partition-choice(full-partition(J;p)). \mforall{}y:partition-choice(full-partition(J;q)). (p refines q {}\mRightarrow{} (|partition-sum(f;y;full-partition(J;q)) - partition-sum(f;x;full-partition(J;p))| \mleq{} ((r1/r(n)) * |J|))))))))) 8. J : Interval@i 9. icompact(J)@i 10. J \msubseteq{} I @i 11. u : \mBbbR{} 12. v : \mBbbR{} List 13. partitions(J;[u / v])@i 14. ||[u / v]|| \mleq{} K@i 15. n : \mBbbN{}\msupplus{}@i 16. partition-mesh(J;[u / v]) \mleq{} (mc 1 n)@i 17. frs-increasing([u / v])@i 18. p : partition(J)@i 19. x : partition-choice(full-partition(J;p))@i 20. y : partition-choice(full-partition(J;[u / v]))@i 21. p refines [u / v]@i 22. partitions([left-endpoint(J), u];[]) 23. partitions([u, right-endpoint(J)];v) 24. left-endpoint(J) \mleq{} u 25. u \mleq{} right-endpoint(J) 26. partition-mesh([left-endpoint(J), u];[]) \mleq{} partition-mesh(J;[u / v]) 27. partition-mesh([u, right-endpoint(J)];v) \mleq{} partition-mesh(J;[u / v]) 28. u \mmember{} J 29. left-endpoint(J) \mmember{} J 30. right-endpoint(J) \mmember{} J 31. \mforall{}p:partition([u, right-endpoint(J)]). \mforall{}x:partition-choice(full-partition([u, right-endpoint(J)];p)). \mforall{}y:partition-choice(full-partition([u, right-endpoint(J)];v)). (p refines v {}\mRightarrow{} (|partition-sum(f;y;full-partition([u, right-endpoint(J)];v)) - partition-sum(f;x;full-partition([u, right-endpoint(J)];p))| \mleq{} ((r1/r(n)) * |[u, right-endpoint(J)]|))) 32. \mforall{}p:partition([left-endpoint(J), u]). \mforall{}x:partition-choice(full-partition([left-endpoint(J), u];p)). \mforall{}y:partition-choice(full-partition([left-endpoint(J), u];[])). (p refines [] {}\mRightarrow{} (|partition-sum(f;y;full-partition([left-endpoint(J), u];[])) - partition-sum(f;x;full-partition([left-endpoint(J), u];p))| \mleq{} ((r1/r(n)) * |[left-endpoint(J), u]|))) 33. q : partition([left-endpoint(J), u]) 34. r : partition([u, right-endpoint(J)]) 35. q refines [] 36. r refines v 37. x1 : \mBbbR{} 38. x1 = u 39. p = (q @ [x1 / r]) 40. ||r|| + ||q|| < ||p|| 41. is-partition-choice(full-partition([left-endpoint(J), u];q);x) \mwedge{} is-partition-choice(full-partition([u, right-endpoint(J)];r);\mlambda{}i.(x (i + ||q|| + 1))) 42. icompact([left-endpoint(J), u]) \mwedge{} icompact([u, right-endpoint(J)]) \mvdash{} |partition-sum(f;y;full-partition(J;[u / v])) - partition-sum(f;x;full-partition(J;p))| \mleq{} ((r1/r(n)) * |J|) By Latex: (Assert (||r|| + ||q|| + 1) + 1 < ||full-partition(J;p)|| BY (RepUR ``full-partition`` 0 THEN Auto')) Home Index