cdleme31sn1

Description: Part of proof of Lemma E in Crawley p. 113. (Contributed by NM, 26-Feb-2013)

	Ref	Expression
Hypotheses	cdleme31sn1.i	$⊢ I = (ι y \in B \| \forall t \in A ((\neg t \underset{˙}{\leq} W \land \neg t \underset{˙}{\leq} (P \underset{˙}{\lor} Q)) \to y = G))$
	cdleme31sn1.n	$⊢ N = if (s \underset{˙}{\leq} (P \underset{˙}{\lor} Q), I, D)$
	cdleme31sn1.c	$⊢ C = (ι y \in B \| \forall t \in A ((\neg t \underset{˙}{\leq} W \land \neg t \underset{˙}{\leq} (P \underset{˙}{\lor} Q)) \to y = ⦋ R / s ⦌ G))$
Assertion	cdleme31sn1	$⊢ (R \in A \land R \underset{˙}{\leq} (P \underset{˙}{\lor} Q)) \to ⦋ R / s ⦌ N = C$

Proof

Step	Hyp	Ref	Expression
1		cdleme31sn1.i	$⊢ I = (ι y \in B \| \forall t \in A ((\neg t \underset{˙}{\leq} W \land \neg t \underset{˙}{\leq} (P \underset{˙}{\lor} Q)) \to y = G))$
2		cdleme31sn1.n	$⊢ N = if (s \underset{˙}{\leq} (P \underset{˙}{\lor} Q), I, D)$
3		cdleme31sn1.c	$⊢ C = (ι y \in B \| \forall t \in A ((\neg t \underset{˙}{\leq} W \land \neg t \underset{˙}{\leq} (P \underset{˙}{\lor} Q)) \to y = ⦋ R / s ⦌ G))$
4		eqid	$⊢ if (R \underset{˙}{\leq} (P \underset{˙}{\lor} Q), ⦋ R / s ⦌ I, ⦋ R / s ⦌ D) = if (R \underset{˙}{\leq} (P \underset{˙}{\lor} Q), ⦋ R / s ⦌ I, ⦋ R / s ⦌ D)$
5	2 4	cdleme31sn	$⊢ R \in A \to ⦋ R / s ⦌ N = if (R \underset{˙}{\leq} (P \underset{˙}{\lor} Q), ⦋ R / s ⦌ I, ⦋ R / s ⦌ D)$
6	5	adantr	$⊢ (R \in A \land R \underset{˙}{\leq} (P \underset{˙}{\lor} Q)) \to ⦋ R / s ⦌ N = if (R \underset{˙}{\leq} (P \underset{˙}{\lor} Q), ⦋ R / s ⦌ I, ⦋ R / s ⦌ D)$
7		iftrue	$⊢ R \underset{˙}{\leq} (P \underset{˙}{\lor} Q) \to if (R \underset{˙}{\leq} (P \underset{˙}{\lor} Q), ⦋ R / s ⦌ I, ⦋ R / s ⦌ D) = ⦋ R / s ⦌ I$
8	1	csbeq2i	$⊢ ⦋ R / s ⦌ I = ⦋ R / s ⦌ (ι y \in B \| \forall t \in A ((\neg t \underset{˙}{\leq} W \land \neg t \underset{˙}{\leq} (P \underset{˙}{\lor} Q)) \to y = G))$
9	7 8	eqtrdi	$⊢ R \underset{˙}{\leq} (P \underset{˙}{\lor} Q) \to if (R \underset{˙}{\leq} (P \underset{˙}{\lor} Q), ⦋ R / s ⦌ I, ⦋ R / s ⦌ D) = ⦋ R / s ⦌ (ι y \in B \| \forall t \in A ((\neg t \underset{˙}{\leq} W \land \neg t \underset{˙}{\leq} (P \underset{˙}{\lor} Q)) \to y = G))$
10		nfcv	$⊢ \underline{Ⅎ} s A$
11		nfv	$⊢ Ⅎ s (\neg t \underset{˙}{\leq} W \land \neg t \underset{˙}{\leq} (P \underset{˙}{\lor} Q))$
12		nfcsb1v	$⊢ \underline{Ⅎ} s ⦋ R / s ⦌ G$
13	12	nfeq2	$⊢ Ⅎ s y = ⦋ R / s ⦌ G$
14	11 13	nfim	$⊢ Ⅎ s ((\neg t \underset{˙}{\leq} W \land \neg t \underset{˙}{\leq} (P \underset{˙}{\lor} Q)) \to y = ⦋ R / s ⦌ G)$
15	10 14	nfralw	$⊢ Ⅎ s \forall t \in A ((\neg t \underset{˙}{\leq} W \land \neg t \underset{˙}{\leq} (P \underset{˙}{\lor} Q)) \to y = ⦋ R / s ⦌ G)$
16		nfcv	$⊢ \underline{Ⅎ} s B$
17	15 16	nfriota	$⊢ \underline{Ⅎ} s (ι y \in B \| \forall t \in A ((\neg t \underset{˙}{\leq} W \land \neg t \underset{˙}{\leq} (P \underset{˙}{\lor} Q)) \to y = ⦋ R / s ⦌ G))$
18	17	a1i	$⊢ R \in A \to \underline{Ⅎ} s (ι y \in B \| \forall t \in A ((\neg t \underset{˙}{\leq} W \land \neg t \underset{˙}{\leq} (P \underset{˙}{\lor} Q)) \to y = ⦋ R / s ⦌ G))$
19		csbeq1a	$⊢ s = R \to G = ⦋ R / s ⦌ G$
20	19	eqeq2d	$⊢ s = R \to (y = G \leftrightarrow y = ⦋ R / s ⦌ G)$
21	20	imbi2d	$⊢ s = R \to (((\neg t \underset{˙}{\leq} W \land \neg t \underset{˙}{\leq} (P \underset{˙}{\lor} Q)) \to y = G) \leftrightarrow ((\neg t \underset{˙}{\leq} W \land \neg t \underset{˙}{\leq} (P \underset{˙}{\lor} Q)) \to y = ⦋ R / s ⦌ G))$
22	21	ralbidv	$⊢ s = R \to (\forall t \in A ((\neg t \underset{˙}{\leq} W \land \neg t \underset{˙}{\leq} (P \underset{˙}{\lor} Q)) \to y = G) \leftrightarrow \forall t \in A ((\neg t \underset{˙}{\leq} W \land \neg t \underset{˙}{\leq} (P \underset{˙}{\lor} Q)) \to y = ⦋ R / s ⦌ G))$
23	22	riotabidv	$⊢ s = R \to (ι y \in B \| \forall t \in A ((\neg t \underset{˙}{\leq} W \land \neg t \underset{˙}{\leq} (P \underset{˙}{\lor} Q)) \to y = G)) = (ι y \in B \| \forall t \in A ((\neg t \underset{˙}{\leq} W \land \neg t \underset{˙}{\leq} (P \underset{˙}{\lor} Q)) \to y = ⦋ R / s ⦌ G))$
24	18 23	csbiegf	$⊢ R \in A \to ⦋ R / s ⦌ (ι y \in B \| \forall t \in A ((\neg t \underset{˙}{\leq} W \land \neg t \underset{˙}{\leq} (P \underset{˙}{\lor} Q)) \to y = G)) = (ι y \in B \| \forall t \in A ((\neg t \underset{˙}{\leq} W \land \neg t \underset{˙}{\leq} (P \underset{˙}{\lor} Q)) \to y = ⦋ R / s ⦌ G))$
25	9 24	sylan9eqr	$⊢ (R \in A \land R \underset{˙}{\leq} (P \underset{˙}{\lor} Q)) \to if (R \underset{˙}{\leq} (P \underset{˙}{\lor} Q), ⦋ R / s ⦌ I, ⦋ R / s ⦌ D) = (ι y \in B \| \forall t \in A ((\neg t \underset{˙}{\leq} W \land \neg t \underset{˙}{\leq} (P \underset{˙}{\lor} Q)) \to y = ⦋ R / s ⦌ G))$
26	25 3	eqtr4di	$⊢ (R \in A \land R \underset{˙}{\leq} (P \underset{˙}{\lor} Q)) \to if (R \underset{˙}{\leq} (P \underset{˙}{\lor} Q), ⦋ R / s ⦌ I, ⦋ R / s ⦌ D) = C$
27	6 26	eqtrd	$⊢ (R \in A \land R \underset{˙}{\leq} (P \underset{˙}{\lor} Q)) \to ⦋ R / s ⦌ N = C$

Metamath Proof Explorer

Theorem cdleme31sn1

Proof