isnacs2

Description: Express Noetherian-type closure system with fewer quantifiers. (Contributed by Stefan O'Rear, 4-Apr-2015)

		Ref	Expression
	Hypothesis	isnacs.f	$⊢ F = mrCls (C)$
	Assertion	isnacs2	$⊢ C \in NoeACS (X) \leftrightarrow (C \in ACS (X) \land F [𝒫 X \cap Fin] = C)$

Proof

Step	Hyp	Ref	Expression
1		isnacs.f	$⊢ F = mrCls (C)$
2	1	isnacs	$⊢ C \in NoeACS (X) \leftrightarrow (C \in ACS (X) \land \forall s \in C \exists g \in (𝒫 X \cap Fin) s = F (g))$
3		eqcom	$⊢ s = F (g) \leftrightarrow F (g) = s$
4	3	rexbii	$⊢ \exists g \in (𝒫 X \cap Fin) s = F (g) \leftrightarrow \exists g \in (𝒫 X \cap Fin) F (g) = s$
5		acsmre	$⊢ C \in ACS (X) \to C \in Moore (X)$
6	1	mrcf	$⊢ C \in Moore (X) \to F : 𝒫 X ⟶ C$
7		ffn	$⊢ F : 𝒫 X ⟶ C \to F Fn 𝒫 X$
8	5 6 7	3syl	$⊢ C \in ACS (X) \to F Fn 𝒫 X$
9		inss1	$⊢ 𝒫 X \cap Fin \subseteq 𝒫 X$
10		fvelimab	$⊢ (F Fn 𝒫 X \land 𝒫 X \cap Fin \subseteq 𝒫 X) \to (s \in F [𝒫 X \cap Fin] \leftrightarrow \exists g \in (𝒫 X \cap Fin) F (g) = s)$
11	8 9 10	sylancl	$⊢ C \in ACS (X) \to (s \in F [𝒫 X \cap Fin] \leftrightarrow \exists g \in (𝒫 X \cap Fin) F (g) = s)$
12	4 11	bitr4id	$⊢ C \in ACS (X) \to (\exists g \in (𝒫 X \cap Fin) s = F (g) \leftrightarrow s \in F [𝒫 X \cap Fin])$
13	12	ralbidv	$⊢ C \in ACS (X) \to (\forall s \in C \exists g \in (𝒫 X \cap Fin) s = F (g) \leftrightarrow \forall s \in C s \in F [𝒫 X \cap Fin])$
14		dfss3	$⊢ C \subseteq F [𝒫 X \cap Fin] \leftrightarrow \forall s \in C s \in F [𝒫 X \cap Fin]$
15	13 14	bitr4di	$⊢ C \in ACS (X) \to (\forall s \in C \exists g \in (𝒫 X \cap Fin) s = F (g) \leftrightarrow C \subseteq F [𝒫 X \cap Fin])$
16		imassrn	$⊢ F [𝒫 X \cap Fin] \subseteq ran F$
17		frn	$⊢ F : 𝒫 X ⟶ C \to ran F \subseteq C$
18	5 6 17	3syl	$⊢ C \in ACS (X) \to ran F \subseteq C$
19	16 18	sstrid	$⊢ C \in ACS (X) \to F [𝒫 X \cap Fin] \subseteq C$
20	19	biantrurd	$⊢ C \in ACS (X) \to (C \subseteq F [𝒫 X \cap Fin] \leftrightarrow (F [𝒫 X \cap Fin] \subseteq C \land C \subseteq F [𝒫 X \cap Fin]))$
21		eqss	$⊢ F [𝒫 X \cap Fin] = C \leftrightarrow (F [𝒫 X \cap Fin] \subseteq C \land C \subseteq F [𝒫 X \cap Fin])$
22	20 21	bitr4di	$⊢ C \in ACS (X) \to (C \subseteq F [𝒫 X \cap Fin] \leftrightarrow F [𝒫 X \cap Fin] = C)$
23	15 22	bitrd	$⊢ C \in ACS (X) \to (\forall s \in C \exists g \in (𝒫 X \cap Fin) s = F (g) \leftrightarrow F [𝒫 X \cap Fin] = C)$
24	23	pm5.32i	$⊢ (C \in ACS (X) \land \forall s \in C \exists g \in (𝒫 X \cap Fin) s = F (g)) \leftrightarrow (C \in ACS (X) \land F [𝒫 X \cap Fin] = C)$
25	2 24	bitri	$⊢ C \in NoeACS (X) \leftrightarrow (C \in ACS (X) \land F [𝒫 X \cap Fin] = C)$

Metamath Proof Explorer

Theorem isnacs2

Proof