Proof of Nuprl Lemma : cantor-to-interval-onto-common

Step * 1 1 of Lemma cantor-to-interval-onto-common

1. a : ℝ
2. b : ℝ
3. [%] : a < b
4. x : ℝ
5. y : ℝ
6. x ∈ [a, b]
7. y ∈ [a, b]
8. n : ℕ
9. |x - y| ≤ (2^n * b - a)/6 * 3^n
10. ∀a,b:ℝ.
      (((x ∈ [(2 * a + b)/3, b]) ∧ (y ∈ [(2 * a + b)/3, b]))
         ∨ ((x ∈ [a, (a + 2 * b)/3]) ∧ (y ∈ [a, (a + 2 * b)/3]))) supposing
         (((x ∈ [a, b]) ∧ (y ∈ [a, b]) ∧ (|x - y| ≤ (b - a/r(6)))) and
         (a < b))
⊢ ∃f:ℕn ⟶ 𝔹
   ((x ∈ [fst(cantor-interval(a;b;f;n)), snd(cantor-interval(a;b;f;n))])
   ∧ (y ∈ [fst(cantor-interval(a;b;f;n)), snd(cantor-interval(a;b;f;n))]))
BY
{ Assert ⌜∀m:ℕ. ∀f:ℕm ⟶ 𝔹.
            ∃g:ℕm + 1 ⟶ 𝔹 [((g = f ∈ (ℕm ⟶ 𝔹))

                           ∧ (x ∈ [fst(cantor-interval(a;b;g;m + 1)), snd(cantor-interval(a;b;g;m + 1))])

                           ∧ (y ∈ [fst(cantor-interval(a;b;g;m + 1)), snd(cantor-interval(a;b;g;m + 1))]))]

            supposing (x ∈ [fst(cantor-interval(a;b;f;m)), snd(cantor-interval(a;b;f;m))])
            ∧ (y ∈ [fst(cantor-interval(a;b;f;m)), snd(cantor-interval(a;b;f;m))])
            ∧ (m ≤ n)⌝⋅ }

1
.....assertion.....
1. a : ℝ
2. b : ℝ
3. [%] : a < b
4. x : ℝ
5. y : ℝ
6. x ∈ [a, b]
7. y ∈ [a, b]
8. n : ℕ
9. |x - y| ≤ (2^n * b - a)/6 * 3^n
10. ∀a,b:ℝ.
      (((x ∈ [(2 * a + b)/3, b]) ∧ (y ∈ [(2 * a + b)/3, b]))
         ∨ ((x ∈ [a, (a + 2 * b)/3]) ∧ (y ∈ [a, (a + 2 * b)/3]))) supposing
         (((x ∈ [a, b]) ∧ (y ∈ [a, b]) ∧ (|x - y| ≤ (b - a/r(6)))) and
         (a < b))
⊢ ∀m:ℕ. ∀f:ℕm ⟶ 𝔹.
    ∃g:ℕm + 1 ⟶ 𝔹 [((g = f ∈ (ℕm ⟶ 𝔹))

                   ∧ (x ∈ [fst(cantor-interval(a;b;g;m + 1)), snd(cantor-interval(a;b;g;m + 1))])

                   ∧ (y ∈ [fst(cantor-interval(a;b;g;m + 1)), snd(cantor-interval(a;b;g;m + 1))]))]

    supposing (x ∈ [fst(cantor-interval(a;b;f;m)), snd(cantor-interval(a;b;f;m))])
    ∧ (y ∈ [fst(cantor-interval(a;b;f;m)), snd(cantor-interval(a;b;f;m))])
    ∧ (m ≤ n)

2
1. a : ℝ
2. b : ℝ
3. [%] : a < b
4. x : ℝ
5. y : ℝ
6. x ∈ [a, b]
7. y ∈ [a, b]
8. n : ℕ
9. |x - y| ≤ (2^n * b - a)/6 * 3^n
10. ∀a,b:ℝ.
      (((x ∈ [(2 * a + b)/3, b]) ∧ (y ∈ [(2 * a + b)/3, b]))
         ∨ ((x ∈ [a, (a + 2 * b)/3]) ∧ (y ∈ [a, (a + 2 * b)/3]))) supposing
         (((x ∈ [a, b]) ∧ (y ∈ [a, b]) ∧ (|x - y| ≤ (b - a/r(6)))) and
         (a < b))
11. ∀m:ℕ. ∀f:ℕm ⟶ 𝔹.
      ∃g:ℕm + 1 ⟶ 𝔹 [((g = f ∈ (ℕm ⟶ 𝔹))

                     ∧ (x ∈ [fst(cantor-interval(a;b;g;m + 1)), snd(cantor-interval(a;b;g;m + 1))])

                     ∧ (y ∈ [fst(cantor-interval(a;b;g;m + 1)), snd(cantor-interval(a;b;g;m + 1))]))]

      supposing (x ∈ [fst(cantor-interval(a;b;f;m)), snd(cantor-interval(a;b;f;m))])
      ∧ (y ∈ [fst(cantor-interval(a;b;f;m)), snd(cantor-interval(a;b;f;m))])
      ∧ (m ≤ n)
⊢ ∃f:ℕn ⟶ 𝔹
   ((x ∈ [fst(cantor-interval(a;b;f;n)), snd(cantor-interval(a;b;f;n))])
   ∧ (y ∈ [fst(cantor-interval(a;b;f;n)), snd(cantor-interval(a;b;f;n))]))

Latex:

Latex:
1. a : \mBbbR{} 2. b : \mBbbR{} 3. [\%] : a < b 4. x : \mBbbR{} 5. y : \mBbbR{} 6. x \mmember{} [a, b] 7. y \mmember{} [a, b] 8. n : \mBbbN{} 9. |x - y| \mleq{} (2\^{}n * b - a)/6 * 3\^{}n 10. \mforall{}a,b:\mBbbR{}. (((x \mmember{} [(2 * a + b)/3, b]) \mwedge{} (y \mmember{} [(2 * a + b)/3, b])) \mvee{} ((x \mmember{} [a, (a + 2 * b)/3]) \mwedge{} (y \mmember{} [a, (a + 2 * b)/3]))) supposing (((x \mmember{} [a, b]) \mwedge{} (y \mmember{} [a, b]) \mwedge{} (|x - y| \mleq{} (b - a/r(6)))) and (a < b)) \mvdash{} \mexists{}f:\mBbbN{}n {}\mrightarrow{} \mBbbB{} ((x \mmember{} [fst(cantor-interval(a;b;f;n)), snd(cantor-interval(a;b;f;n))]) \mwedge{} (y \mmember{} [fst(cantor-interval(a;b;f;n)), snd(cantor-interval(a;b;f;n))])) By Latex: Assert \mkleeneopen{}\mforall{}m:\mBbbN{}. \mforall{}f:\mBbbN{}m {}\mrightarrow{} \mBbbB{}. \mexists{}g:\mBbbN{}m + 1 {}\mrightarrow{} \mBbbB{} [((g = f) \mwedge{} (x \mmember{} [fst(cantor-interval(a;b;g;m + 1)), snd(cantor-interval(a;b;g;m + 1))]) \mwedge{} (y \mmember{} [fst(cantor-interval(a;b;g;m + 1)), snd(cantor-interval(a;b;g;m + 1))]))] supposing (x \mmember{} [fst(cantor-interval(a;b;f;m)), snd(cantor-interval(a;b;f;m))]) \mwedge{} (y \mmember{} [fst(cantor-interval(a;b;f;m)), snd(cantor-interval(a;b;f;m))]) \mwedge{} (m \mleq{} n)\mkleeneclose{}\mcdot{} Home Index