Proof of Nuprl Lemma : fset-ac-order-constrained

Step * 1 1 1 1 1 of Lemma fset-ac-order-constrained

1. T : Type
2. eq : EqDecider(T)
3. P : fset(T) ⟶ 𝔹
4. Trans({ac:fset(fset(T))| (↑fset-antichain(eq;ac)) ∧ fset-all(ac;a.P[a])} ;ac1,ac2.fset-ac-le(eq;ac1;ac2))
5. ac1 : fset(fset(T))
6. ↑fset-antichain(eq;ac1)
7. fset-all(ac1;a.P[a])
8. ac2 : fset(fset(T))
9. ↑fset-antichain(eq;ac2)
10. fset-all(ac2;a.P[a])
11. fset-ac-le(eq;ac1;ac2)
12. fset-ac-le(eq;ac2;ac1)
13. a : fset(T)
14. a ∈ ac1
15. ∀a:fset(T). (a ∈ ac1 ⇒ (¬({y ∈ ac2 | deq-f-subset(eq) y a} = {} ∈ fset(fset(T)))))
16. ¬a ∈ ac2
17. a1 : fset(T)
18. a1 ∈ {y ∈ ac2 | deq-f-subset(eq) y a}
19. a1 ∈ ac2
20. a1 ⊆ a
21. ∀a:fset(T). (a ∈ ac2 ⇒ (¬({y ∈ ac1 | deq-f-subset(eq) y a} = {} ∈ fset(fset(T)))))
22. a2 : fset(T)
23. a2 ∈ {y ∈ ac1 | deq-f-subset(eq) y a1}
24. a2 ∈ ac1
25. a2 ⊆ a1
⊢ False
BY
{ (Assert a2 ⊆ a BY
(Using [`ys',⌜a1⌝] (BLemma `f-subset_transitivity`)⋅ THEN Auto)) }

1
1. T : Type
2. eq : EqDecider(T)
3. P : fset(T) ⟶ 𝔹
4. Trans({ac:fset(fset(T))| (↑fset-antichain(eq;ac)) ∧ fset-all(ac;a.P[a])} ;ac1,ac2.fset-ac-le(eq;ac1;ac2))
5. ac1 : fset(fset(T))
6. ↑fset-antichain(eq;ac1)
7. fset-all(ac1;a.P[a])
8. ac2 : fset(fset(T))
9. ↑fset-antichain(eq;ac2)
10. fset-all(ac2;a.P[a])
11. fset-ac-le(eq;ac1;ac2)
12. fset-ac-le(eq;ac2;ac1)
13. a : fset(T)
14. a ∈ ac1
15. ∀a:fset(T). (a ∈ ac1 ⇒ (¬({y ∈ ac2 | deq-f-subset(eq) y a} = {} ∈ fset(fset(T)))))
16. ¬a ∈ ac2
17. a1 : fset(T)
18. a1 ∈ {y ∈ ac2 | deq-f-subset(eq) y a}
19. a1 ∈ ac2
20. a1 ⊆ a
21. ∀a:fset(T). (a ∈ ac2 ⇒ (¬({y ∈ ac1 | deq-f-subset(eq) y a} = {} ∈ fset(fset(T)))))
22. a2 : fset(T)
23. a2 ∈ {y ∈ ac1 | deq-f-subset(eq) y a1}
24. a2 ∈ ac1
25. a2 ⊆ a1
26. a2 ⊆ a
⊢ False

Latex:

Latex:
1. T : Type 2. eq : EqDecider(T) 3. P : fset(T) {}\mrightarrow{} \mBbbB{} 4. Trans(\{ac:fset(fset(T))| (\muparrow{}fset-antichain(eq;ac)) \mwedge{} fset-all(ac;a.P[a])\} ;ac1,ac2.fset-ac-le(eq;a\000Cc1;ac2)) 5. ac1 : fset(fset(T)) 6. \muparrow{}fset-antichain(eq;ac1) 7. fset-all(ac1;a.P[a]) 8. ac2 : fset(fset(T)) 9. \muparrow{}fset-antichain(eq;ac2) 10. fset-all(ac2;a.P[a]) 11. fset-ac-le(eq;ac1;ac2) 12. fset-ac-le(eq;ac2;ac1) 13. a : fset(T) 14. a \mmember{} ac1 15. \mforall{}a:fset(T). (a \mmember{} ac1 {}\mRightarrow{} (\mneg{}(\{y \mmember{} ac2 | deq-f-subset(eq) y a\} = \{\}))) 16. \mneg{}a \mmember{} ac2 17. a1 : fset(T) 18. a1 \mmember{} \{y \mmember{} ac2 | deq-f-subset(eq) y a\} 19. a1 \mmember{} ac2 20. a1 \msubseteq{} a 21. \mforall{}a:fset(T). (a \mmember{} ac2 {}\mRightarrow{} (\mneg{}(\{y \mmember{} ac1 | deq-f-subset(eq) y a\} = \{\}))) 22. a2 : fset(T) 23. a2 \mmember{} \{y \mmember{} ac1 | deq-f-subset(eq) y a1\} 24. a2 \mmember{} ac1 25. a2 \msubseteq{} a1 \mvdash{} False By Latex: (Assert a2 \msubseteq{} a BY (Using [`ys',\mkleeneopen{}a1\mkleeneclose{}] (BLemma `f-subset\_transitivity`)\mcdot{} THEN Auto)) Home Index