onminex

Description: If a wff is true for an ordinal number, then there is the smallest ordinal number for which it is true. (Contributed by NM, 2-Feb-1997) (Proof shortened by Mario Carneiro, 20-Nov-2016)

		Ref	Expression
	Hypothesis	onminex.1	$⊢ x = y \to (φ \leftrightarrow ψ)$
	Assertion	onminex	$⊢ \exists x \in On φ \to \exists x \in On (φ \land \forall y \in x \neg ψ)$

Proof

Step	Hyp	Ref	Expression
1		onminex.1	$⊢ x = y \to (φ \leftrightarrow ψ)$
2		ssrab2	$⊢ \{x \in On \| φ\} \subseteq On$
3		rabn0	$⊢ \{x \in On \| φ\} \neq \emptyset \leftrightarrow \exists x \in On φ$
4	3	biimpri	$⊢ \exists x \in On φ \to \{x \in On \| φ\} \neq \emptyset$
5		oninton	$⊢ (\{x \in On \| φ\} \subseteq On \land \{x \in On \| φ\} \neq \emptyset) \to ⋂ \{x \in On \| φ\} \in On$
6	2 4 5	sylancr	$⊢ \exists x \in On φ \to ⋂ \{x \in On \| φ\} \in On$
7		onminesb	$⊢ \exists x \in On φ \to \underset{˙}{[} ⋂ \{x \in On \| φ\} / x \underset{˙}{]} φ$
8		onss	$⊢ ⋂ \{x \in On \| φ\} \in On \to ⋂ \{x \in On \| φ\} \subseteq On$
9	6 8	syl	$⊢ \exists x \in On φ \to ⋂ \{x \in On \| φ\} \subseteq On$
10	9	sseld	$⊢ \exists x \in On φ \to (y \in ⋂ \{x \in On \| φ\} \to y \in On)$
11	1	onnminsb	$⊢ y \in On \to (y \in ⋂ \{x \in On \| φ\} \to \neg ψ)$
12	10 11	syli	$⊢ \exists x \in On φ \to (y \in ⋂ \{x \in On \| φ\} \to \neg ψ)$
13	12	ralrimiv	$⊢ \exists x \in On φ \to \forall y \in ⋂ \{x \in On \| φ\} \neg ψ$
14		dfsbcq2	$⊢ z = ⋂ \{x \in On \| φ\} \to ([z/ x] φ \leftrightarrow \underset{˙}{[} ⋂ \{x \in On \| φ\} / x \underset{˙}{]} φ)$
15		raleq	$⊢ z = ⋂ \{x \in On \| φ\} \to (\forall y \in z \neg ψ \leftrightarrow \forall y \in ⋂ \{x \in On \| φ\} \neg ψ)$
16	14 15	anbi12d	$⊢ z = ⋂ \{x \in On \| φ\} \to (([z/ x] φ \land \forall y \in z \neg ψ) \leftrightarrow (\underset{˙}{[} ⋂ \{x \in On \| φ\} / x \underset{˙}{]} φ \land \forall y \in ⋂ \{x \in On \| φ\} \neg ψ))$
17	16	rspcev	$⊢ (⋂ \{x \in On \| φ\} \in On \land (\underset{˙}{[} ⋂ \{x \in On \| φ\} / x \underset{˙}{]} φ \land \forall y \in ⋂ \{x \in On \| φ\} \neg ψ)) \to \exists z \in On ([z/ x] φ \land \forall y \in z \neg ψ)$
18	6 7 13 17	syl12anc	$⊢ \exists x \in On φ \to \exists z \in On ([z/ x] φ \land \forall y \in z \neg ψ)$
19		nfv	$⊢ Ⅎ z (φ \land \forall y \in x \neg ψ)$
20		nfs1v	$⊢ Ⅎ x [z/ x] φ$
21		nfv	$⊢ Ⅎ x \forall y \in z \neg ψ$
22	20 21	nfan	$⊢ Ⅎ x ([z/ x] φ \land \forall y \in z \neg ψ)$
23		sbequ12	$⊢ x = z \to (φ \leftrightarrow [z/ x] φ)$
24		raleq	$⊢ x = z \to (\forall y \in x \neg ψ \leftrightarrow \forall y \in z \neg ψ)$
25	23 24	anbi12d	$⊢ x = z \to ((φ \land \forall y \in x \neg ψ) \leftrightarrow ([z/ x] φ \land \forall y \in z \neg ψ))$
26	19 22 25	cbvrexw	$⊢ \exists x \in On (φ \land \forall y \in x \neg ψ) \leftrightarrow \exists z \in On ([z/ x] φ \land \forall y \in z \neg ψ)$
27	18 26	sylibr	$⊢ \exists x \in On φ \to \exists x \in On (φ \land \forall y \in x \neg ψ)$

Metamath Proof Explorer

Theorem onminex

Proof