kelac2lem

Description: Lemma for kelac2 and dfac21 : knob topologies are compact. (Contributed by Stefan O'Rear, 22-Feb-2015)

		Ref	Expression
	Assertion	kelac2lem	$⊢ S \in V \to topGen (\{S, \{𝒫 ⋃ S\}\}) \in Comp$

Proof

Step	Hyp	Ref	Expression
1		prex	$⊢ \{S, \{𝒫 ⋃ S\}\} \in V$
2		vex	$⊢ x \in V$
3	2	elpr	$⊢ x \in \{S, \{𝒫 ⋃ S\}\} \leftrightarrow (x = S \lor x = \{𝒫 ⋃ S\})$
4		vex	$⊢ y \in V$
5	4	elpr	$⊢ y \in \{S, \{𝒫 ⋃ S\}\} \leftrightarrow (y = S \lor y = \{𝒫 ⋃ S\})$
6		eqtr3	$⊢ (x = S \land y = S) \to x = y$
7	6	orcd	$⊢ (x = S \land y = S) \to (x = y \lor x \cap y = \emptyset)$
8		ineq12	$⊢ (x = \{𝒫 ⋃ S\} \land y = S) \to x \cap y = \{𝒫 ⋃ S\} \cap S$
9		incom	$⊢ \{𝒫 ⋃ S\} \cap S = S \cap \{𝒫 ⋃ S\}$
10		pwuninel	$⊢ \neg 𝒫 ⋃ S \in S$
11		disjsn	$⊢ S \cap \{𝒫 ⋃ S\} = \emptyset \leftrightarrow \neg 𝒫 ⋃ S \in S$
12	10 11	mpbir	$⊢ S \cap \{𝒫 ⋃ S\} = \emptyset$
13	9 12	eqtri	$⊢ \{𝒫 ⋃ S\} \cap S = \emptyset$
14	8 13	eqtrdi	$⊢ (x = \{𝒫 ⋃ S\} \land y = S) \to x \cap y = \emptyset$
15	14	olcd	$⊢ (x = \{𝒫 ⋃ S\} \land y = S) \to (x = y \lor x \cap y = \emptyset)$
16		ineq12	$⊢ (x = S \land y = \{𝒫 ⋃ S\}) \to x \cap y = S \cap \{𝒫 ⋃ S\}$
17	16 12	eqtrdi	$⊢ (x = S \land y = \{𝒫 ⋃ S\}) \to x \cap y = \emptyset$
18	17	olcd	$⊢ (x = S \land y = \{𝒫 ⋃ S\}) \to (x = y \lor x \cap y = \emptyset)$
19		eqtr3	$⊢ (x = \{𝒫 ⋃ S\} \land y = \{𝒫 ⋃ S\}) \to x = y$
20	19	orcd	$⊢ (x = \{𝒫 ⋃ S\} \land y = \{𝒫 ⋃ S\}) \to (x = y \lor x \cap y = \emptyset)$
21	7 15 18 20	ccase	$⊢ ((x = S \lor x = \{𝒫 ⋃ S\}) \land (y = S \lor y = \{𝒫 ⋃ S\})) \to (x = y \lor x \cap y = \emptyset)$
22	3 5 21	syl2anb	$⊢ (x \in \{S, \{𝒫 ⋃ S\}\} \land y \in \{S, \{𝒫 ⋃ S\}\}) \to (x = y \lor x \cap y = \emptyset)$
23	22	rgen2	$⊢ \forall x \in \{S, \{𝒫 ⋃ S\}\} \forall y \in \{S, \{𝒫 ⋃ S\}\} (x = y \lor x \cap y = \emptyset)$
24		baspartn	$⊢ (\{S, \{𝒫 ⋃ S\}\} \in V \land \forall x \in \{S, \{𝒫 ⋃ S\}\} \forall y \in \{S, \{𝒫 ⋃ S\}\} (x = y \lor x \cap y = \emptyset)) \to \{S, \{𝒫 ⋃ S\}\} \in TopBases$
25	1 23 24	mp2an	$⊢ \{S, \{𝒫 ⋃ S\}\} \in TopBases$
26		tgcl	$⊢ \{S, \{𝒫 ⋃ S\}\} \in TopBases \to topGen (\{S, \{𝒫 ⋃ S\}\}) \in Top$
27	25 26	mp1i	$⊢ S \in V \to topGen (\{S, \{𝒫 ⋃ S\}\}) \in Top$
28		prfi	$⊢ \{S, \{𝒫 ⋃ S\}\} \in Fin$
29		pwfi	$⊢ \{S, \{𝒫 ⋃ S\}\} \in Fin \leftrightarrow 𝒫 \{S, \{𝒫 ⋃ S\}\} \in Fin$
30	28 29	mpbi	$⊢ 𝒫 \{S, \{𝒫 ⋃ S\}\} \in Fin$
31		tgdom	$⊢ \{S, \{𝒫 ⋃ S\}\} \in V \to topGen (\{S, \{𝒫 ⋃ S\}\}) ≼ 𝒫 \{S, \{𝒫 ⋃ S\}\}$
32	1 31	ax-mp	$⊢ topGen (\{S, \{𝒫 ⋃ S\}\}) ≼ 𝒫 \{S, \{𝒫 ⋃ S\}\}$
33		domfi	$⊢ (𝒫 \{S, \{𝒫 ⋃ S\}\} \in Fin \land topGen (\{S, \{𝒫 ⋃ S\}\}) ≼ 𝒫 \{S, \{𝒫 ⋃ S\}\}) \to topGen (\{S, \{𝒫 ⋃ S\}\}) \in Fin$
34	30 32 33	mp2an	$⊢ topGen (\{S, \{𝒫 ⋃ S\}\}) \in Fin$
35	34	a1i	$⊢ S \in V \to topGen (\{S, \{𝒫 ⋃ S\}\}) \in Fin$
36	27 35	elind	$⊢ S \in V \to topGen (\{S, \{𝒫 ⋃ S\}\}) \in (Top \cap Fin)$
37		fincmp	$⊢ topGen (\{S, \{𝒫 ⋃ S\}\}) \in (Top \cap Fin) \to topGen (\{S, \{𝒫 ⋃ S\}\}) \in Comp$
38	36 37	syl	$⊢ S \in V \to topGen (\{S, \{𝒫 ⋃ S\}\}) \in Comp$

Metamath Proof Explorer

Theorem kelac2lem

Proof