ptcldmpt

Description: A closed box in the product topology. (Contributed by Stefan O'Rear, 22-Feb-2015)

	Ref	Expression
Hypotheses	ptcldmpt.a	$⊢ φ \to A \in V$
	ptcldmpt.j	$⊢ (φ \land k \in A) \to J \in Top$
	ptcldmpt.c	$⊢ (φ \land k \in A) \to C \in Clsd (J)$
Assertion	ptcldmpt	$⊢ φ \to \underset{k \in A}{⨉} C \in Clsd (\prod_{𝑡} ((k \in A ⟼ J)))$

Proof

Step	Hyp	Ref	Expression
1		ptcldmpt.a	$⊢ φ \to A \in V$
2		ptcldmpt.j	$⊢ (φ \land k \in A) \to J \in Top$
3		ptcldmpt.c	$⊢ (φ \land k \in A) \to C \in Clsd (J)$
4		nfcv	$⊢ \underline{Ⅎ} l C$
5		nfcsb1v	$⊢ \underline{Ⅎ} k ⦋ l / k ⦌ C$
6		csbeq1a	$⊢ k = l \to C = ⦋ l / k ⦌ C$
7	4 5 6	cbvixp	$⊢ \underset{k \in A}{⨉} C = \underset{l \in A}{⨉} ⦋ l / k ⦌ C$
8	2	fmpttd	$⊢ φ \to (k \in A ⟼ J) : A ⟶ Top$
9		nfv	$⊢ Ⅎ k (φ \land l \in A)$
10		nfcv	$⊢ \underline{Ⅎ} k Clsd$
11		nffvmpt1	$⊢ \underline{Ⅎ} k (k \in A ⟼ J) (l)$
12	10 11	nffv	$⊢ \underline{Ⅎ} k Clsd ((k \in A ⟼ J) (l))$
13	5 12	nfel	$⊢ Ⅎ k ⦋ l / k ⦌ C \in Clsd ((k \in A ⟼ J) (l))$
14	9 13	nfim	$⊢ Ⅎ k ((φ \land l \in A) \to ⦋ l / k ⦌ C \in Clsd ((k \in A ⟼ J) (l)))$
15		eleq1w	$⊢ k = l \to (k \in A \leftrightarrow l \in A)$
16	15	anbi2d	$⊢ k = l \to ((φ \land k \in A) \leftrightarrow (φ \land l \in A))$
17		2fveq3	$⊢ k = l \to Clsd ((k \in A ⟼ J) (k)) = Clsd ((k \in A ⟼ J) (l))$
18	6 17	eleq12d	$⊢ k = l \to (C \in Clsd ((k \in A ⟼ J) (k)) \leftrightarrow ⦋ l / k ⦌ C \in Clsd ((k \in A ⟼ J) (l)))$
19	16 18	imbi12d	$⊢ k = l \to (((φ \land k \in A) \to C \in Clsd ((k \in A ⟼ J) (k))) \leftrightarrow ((φ \land l \in A) \to ⦋ l / k ⦌ C \in Clsd ((k \in A ⟼ J) (l))))$
20		simpr	$⊢ (φ \land k \in A) \to k \in A$
21		eqid	$⊢ (k \in A ⟼ J) = (k \in A ⟼ J)$
22	21	fvmpt2	$⊢ (k \in A \land J \in Top) \to (k \in A ⟼ J) (k) = J$
23	20 2 22	syl2anc	$⊢ (φ \land k \in A) \to (k \in A ⟼ J) (k) = J$
24	23	fveq2d	$⊢ (φ \land k \in A) \to Clsd ((k \in A ⟼ J) (k)) = Clsd (J)$
25	3 24	eleqtrrd	$⊢ (φ \land k \in A) \to C \in Clsd ((k \in A ⟼ J) (k))$
26	14 19 25	chvarfv	$⊢ (φ \land l \in A) \to ⦋ l / k ⦌ C \in Clsd ((k \in A ⟼ J) (l))$
27	1 8 26	ptcld	$⊢ φ \to \underset{l \in A}{⨉} ⦋ l / k ⦌ C \in Clsd (\prod_{𝑡} ((k \in A ⟼ J)))$
28	7 27	eqeltrid	$⊢ φ \to \underset{k \in A}{⨉} C \in Clsd (\prod_{𝑡} ((k \in A ⟼ J)))$

Metamath Proof Explorer

Theorem ptcldmpt

Proof