Proof of Nuprl Lemma : basic-implies-strong-continuity2

Step * 1 1 2 1 1 1 1 of Lemma basic-implies-strong-continuity2

1. T : Type
2. F : (ℕ ⟶ T) ⟶ ℕ
3. M : n:ℕ ⟶ (ℕn ⟶ T) ⟶ (ℕ ⋃ (ℕ × ℕ))
4. f : ℕ ⟶ T
5. n : ℕ
6. (M n f) = (F f) ∈ ℕ
7. ∀n:ℕ. (M n f) = (F f) ∈ ℕ supposing M n f is an integer
8. ∀n,m:ℕ.  ((n ≤ m) ⇒ M n f is an integer ⇒ M m f is an integer)
⊢ ∃n:ℕ. (case int?(M n f) of inl(x) => inl x | inr(x) => inr ⋅  = (inl (F f)) ∈ (ℕ?))
BY
{ (D 0 With ⌜n⌝  THENA Auto) }

1
1. T : Type
2. F : (ℕ ⟶ T) ⟶ ℕ
3. M : n:ℕ ⟶ (ℕn ⟶ T) ⟶ (ℕ ⋃ (ℕ × ℕ))
4. f : ℕ ⟶ T
5. n : ℕ
6. (M n f) = (F f) ∈ ℕ
7. ∀n:ℕ. (M n f) = (F f) ∈ ℕ supposing M n f is an integer
8. ∀n,m:ℕ.  ((n ≤ m) ⇒ M n f is an integer ⇒ M m f is an integer)
⊢ case int?(M n f) of inl(x) => inl x | inr(x) => inr ⋅  = (inl (F f)) ∈ (ℕ?)

2
.....wf.....
1. T : Type
2. F : (ℕ ⟶ T) ⟶ ℕ
3. M : n:ℕ ⟶ (ℕn ⟶ T) ⟶ (ℕ ⋃ (ℕ × ℕ))
4. f : ℕ ⟶ T
5. n : ℕ
6. (M n f) = (F f) ∈ ℕ
7. ∀n:ℕ. (M n f) = (F f) ∈ ℕ supposing M n f is an integer
8. ∀n,m:ℕ.  ((n ≤ m) ⇒ M n f is an integer ⇒ M m f is an integer)
9. n1 : ℕ
⊢ case int?(M n1 f) of inl(x) => inl x | inr(x) => inr ⋅  ∈ ℕ?

Latex:

Latex:
1. T : Type 2. F : (\mBbbN{} {}\mrightarrow{} T) {}\mrightarrow{} \mBbbN{} 3. M : n:\mBbbN{} {}\mrightarrow{} (\mBbbN{}n {}\mrightarrow{} T) {}\mrightarrow{} (\mBbbN{} \mcup{} (\mBbbN{} \mtimes{} \mBbbN{})) 4. f : \mBbbN{} {}\mrightarrow{} T 5. n : \mBbbN{} 6. (M n f) = (F f) 7. \mforall{}n:\mBbbN{}. (M n f) = (F f) supposing M n f is an integer 8. \mforall{}n,m:\mBbbN{}. ((n \mleq{} m) {}\mRightarrow{} M n f is an integer {}\mRightarrow{} M m f is an integer) \mvdash{} \mexists{}n:\mBbbN{}. (case int?(M n f) of inl(x) => inl x | inr(x) => inr \mcdot{} = (inl (F f))) By Latex: (D 0 With \mkleeneopen{}n\mkleeneclose{} THENA Auto) Home Index