ltexpri

Description: Proposition 9-3.5(iv) of Gleason p. 123. (Contributed by NM, 13-May-1996) (Revised by Mario Carneiro, 14-Jun-2013) (New usage is discouraged.)

		Ref	Expression
	Assertion	ltexpri	$⊢ A <_{𝑷} B \to \exists x \in 𝑷 A +_{𝑷} x = B$

Proof

Step	Hyp	Ref	Expression
1		ltrelpr	$⊢ <_{𝑷} \subseteq 𝑷 \times 𝑷$
2	1	brel	$⊢ A <_{𝑷} B \to (A \in 𝑷 \land B \in 𝑷)$
3		ltprord	$⊢ (A \in 𝑷 \land B \in 𝑷) \to (A <_{𝑷} B \leftrightarrow A \subset B)$
4		oveq2	$⊢ y = z \to w +_{𝑸} y = w +_{𝑸} z$
5	4	eleq1d	$⊢ y = z \to (w +_{𝑸} y \in B \leftrightarrow w +_{𝑸} z \in B)$
6	5	anbi2d	$⊢ y = z \to ((\neg w \in A \land w +_{𝑸} y \in B) \leftrightarrow (\neg w \in A \land w +_{𝑸} z \in B))$
7	6	exbidv	$⊢ y = z \to (\exists w (\neg w \in A \land w +_{𝑸} y \in B) \leftrightarrow \exists w (\neg w \in A \land w +_{𝑸} z \in B))$
8	7	cbvabv	$⊢ \{y \| \exists w (\neg w \in A \land w +_{𝑸} y \in B)\} = \{z \| \exists w (\neg w \in A \land w +_{𝑸} z \in B)\}$
9	8	ltexprlem5	$⊢ (B \in 𝑷 \land A \subset B) \to \{y \| \exists w (\neg w \in A \land w +_{𝑸} y \in B)\} \in 𝑷$
10	9	adantll	$⊢ ((A \in 𝑷 \land B \in 𝑷) \land A \subset B) \to \{y \| \exists w (\neg w \in A \land w +_{𝑸} y \in B)\} \in 𝑷$
11	8	ltexprlem6	$⊢ ((A \in 𝑷 \land B \in 𝑷) \land A \subset B) \to A +_{𝑷} \{y \| \exists w (\neg w \in A \land w +_{𝑸} y \in B)\} \subseteq B$
12	8	ltexprlem7	$⊢ ((A \in 𝑷 \land B \in 𝑷) \land A \subset B) \to B \subseteq A +_{𝑷} \{y \| \exists w (\neg w \in A \land w +_{𝑸} y \in B)\}$
13	11 12	eqssd	$⊢ ((A \in 𝑷 \land B \in 𝑷) \land A \subset B) \to A +_{𝑷} \{y \| \exists w (\neg w \in A \land w +_{𝑸} y \in B)\} = B$
14		oveq2	$⊢ x = \{y \| \exists w (\neg w \in A \land w +_{𝑸} y \in B)\} \to A +_{𝑷} x = A +_{𝑷} \{y \| \exists w (\neg w \in A \land w +_{𝑸} y \in B)\}$
15	14	eqeq1d	$⊢ x = \{y \| \exists w (\neg w \in A \land w +_{𝑸} y \in B)\} \to (A +_{𝑷} x = B \leftrightarrow A +_{𝑷} \{y \| \exists w (\neg w \in A \land w +_{𝑸} y \in B)\} = B)$
16	15	rspcev	$⊢ (\{y \| \exists w (\neg w \in A \land w +_{𝑸} y \in B)\} \in 𝑷 \land A +_{𝑷} \{y \| \exists w (\neg w \in A \land w +_{𝑸} y \in B)\} = B) \to \exists x \in 𝑷 A +_{𝑷} x = B$
17	10 13 16	syl2anc	$⊢ ((A \in 𝑷 \land B \in 𝑷) \land A \subset B) \to \exists x \in 𝑷 A +_{𝑷} x = B$
18	17	ex	$⊢ (A \in 𝑷 \land B \in 𝑷) \to (A \subset B \to \exists x \in 𝑷 A +_{𝑷} x = B)$
19	3 18	sylbid	$⊢ (A \in 𝑷 \land B \in 𝑷) \to (A <_{𝑷} B \to \exists x \in 𝑷 A +_{𝑷} x = B)$
20	2 19	mpcom	$⊢ A <_{𝑷} B \to \exists x \in 𝑷 A +_{𝑷} x = B$

Metamath Proof Explorer

Theorem ltexpri

Proof