Proof of Nuprl Lemma : l_disjoint-representatives

Step * 1 1 2 2 of Lemma l_disjoint-representatives

1. [T] : Type
2. ∀x,y:T.  Dec(x = y ∈ T)
3. u : T List
4. v : T List List
5. 0 < ||u||
6. (∀as∈v.0 < ||as||)
7. reps : T List List
8. reps ⊆ v
9. (∀as∈v.(∃rep∈reps. ¬l_disjoint(T;as;rep)))
10. ∀i:ℕ||reps||. ∀j:ℕi.  l_disjoint(T;reps[j];reps[i])
11. ¬(∃rep∈reps. ¬l_disjoint(T;u;rep))
12. [u / reps] ⊆ [u / v]
⊢ (∀as∈[u / v].(∃rep∈[u / reps]. ¬l_disjoint(T;as;rep)))
BY
{ (BLemma `l_all_cons` THEN Auto)⋅ }

1
1. [T] : Type
2. ∀x,y:T.  Dec(x = y ∈ T)
3. u : T List
4. v : T List List
5. 0 < ||u||
6. (∀as∈v.0 < ||as||)
7. reps : T List List
8. reps ⊆ v
9. (∀as∈v.(∃rep∈reps. ¬l_disjoint(T;as;rep)))
10. ∀i:ℕ||reps||. ∀j:ℕi.  l_disjoint(T;reps[j];reps[i])
11. ¬(∃rep∈reps. ¬l_disjoint(T;u;rep))
12. [u / reps] ⊆ [u / v]
⊢ (∃rep∈[u / reps]. ¬l_disjoint(T;u;rep))

2
1. [T] : Type
2. ∀x,y:T.  Dec(x = y ∈ T)
3. u : T List
4. v : T List List
5. 0 < ||u||
6. (∀as∈v.0 < ||as||)
7. reps : T List List
8. reps ⊆ v
9. (∀as∈v.(∃rep∈reps. ¬l_disjoint(T;as;rep)))
10. ∀i:ℕ||reps||. ∀j:ℕi.  l_disjoint(T;reps[j];reps[i])
11. ¬(∃rep∈reps. ¬l_disjoint(T;u;rep))
12. [u / reps] ⊆ [u / v]
13. (∃rep∈[u / reps]. ¬l_disjoint(T;u;rep))
⊢ (∀as∈v.(∃rep∈[u / reps]. ¬l_disjoint(T;as;rep)))

Latex:

Latex:
1. [T] : Type 2. \mforall{}x,y:T. Dec(x = y) 3. u : T List 4. v : T List List 5. 0 < ||u|| 6. (\mforall{}as\mmember{}v.0 < ||as||) 7. reps : T List List 8. reps \msubseteq{} v 9. (\mforall{}as\mmember{}v.(\mexists{}rep\mmember{}reps. \mneg{}l\_disjoint(T;as;rep))) 10. \mforall{}i:\mBbbN{}||reps||. \mforall{}j:\mBbbN{}i. l\_disjoint(T;reps[j];reps[i]) 11. \mneg{}(\mexists{}rep\mmember{}reps. \mneg{}l\_disjoint(T;u;rep)) 12. [u / reps] \msubseteq{} [u / v] \mvdash{} (\mforall{}as\mmember{}[u / v].(\mexists{}rep\mmember{}[u / reps]. \mneg{}l\_disjoint(T;as;rep))) By Latex: (BLemma `l\_all\_cons` THEN Auto)\mcdot{} Home Index