Proof of Nuprl Lemma : co-cons_one

Step * 1 1 of Lemma co-cons_one_one

.....fun wf.....
1. T : Type
2. a : T
3. a' : T
4. b : colist(T)
5. b' : colist(T)
6. [a / b] = [a' / b'] ∈ colist(T)

7. [a / b] = [a' / b'] ∈ {z:colist(T)| (z = [a / b] ∈ colist(T)) ∧ (z = [a' / b'] ∈ colist(T))}

8. Z : {z:colist(T)| (z = [a / b] ∈ colist(T)) ∧ (z = [a' / b'] ∈ colist(T))}
⊢ hd(Z) = hd(Z) ∈ T
BY
{ (D -1 THEN colistD (-2) THEN Reduce 0) }

1
1. T : Type
2. a : T
3. a' : T
4. b : colist(T)
5. b' : colist(T)
6. [a / b] = [a' / b'] ∈ colist(T)

7. [a / b] = [a' / b'] ∈ {z:colist(T)| (z = [a / b] ∈ colist(T)) ∧ (z = [a' / b'] ∈ colist(T))}

8. ([] = [a / b] ∈ colist(T)) ∧ ([] = [a' / b'] ∈ colist(T))
⊢ hd([]) = hd([]) ∈ T

2
1. T : Type
2. a : T
3. a' : T
4. b : colist(T)
5. b' : colist(T)
6. [a / b] = [a' / b'] ∈ colist(T)

7. [a / b] = [a' / b'] ∈ {z:colist(T)| (z = [a / b] ∈ colist(T)) ∧ (z = [a' / b'] ∈ colist(T))}

8. u : T
9. v : colist(T)
10. ([u / v] = [a / b] ∈ colist(T)) ∧ ([u / v] = [a' / b'] ∈ colist(T))
⊢ u = u ∈ T

Latex:

Latex:
.....fun wf..... 1. T : Type 2. a : T 3. a' : T 4. b : colist(T) 5. b' : colist(T) 6. [a / b] = [a' / b'] 7. [a / b] = [a' / b'] 8. Z : \{z:colist(T)| (z = [a / b]) \mwedge{} (z = [a' / b'])\} \mvdash{} hd(Z) = hd(Z) By Latex: (D -1 THEN colistD (-2) THEN Reduce 0) Home Index