rankpwi

Description: The rank of a power set. Part of Exercise 30 of Enderton p. 207. (Contributed by Mario Carneiro, 3-Jun-2013)

		Ref	Expression
	Assertion	rankpwi	$⊢ A \in ⋃ R_{1} [On] \to rank (𝒫 A) = suc rank (A)$

Proof

Step	Hyp	Ref	Expression
1		rankidn	$⊢ A \in ⋃ R_{1} [On] \to \neg A \in R_{1} (rank (A))$
2		rankon	$⊢ rank (A) \in On$
3		r1suc	$⊢ rank (A) \in On \to R_{1} (suc rank (A)) = 𝒫 R_{1} (rank (A))$
4	2 3	ax-mp	$⊢ R_{1} (suc rank (A)) = 𝒫 R_{1} (rank (A))$
5	4	eleq2i	$⊢ 𝒫 A \in R_{1} (suc rank (A)) \leftrightarrow 𝒫 A \in 𝒫 R_{1} (rank (A))$
6		elpwi	$⊢ 𝒫 A \in 𝒫 R_{1} (rank (A)) \to 𝒫 A \subseteq R_{1} (rank (A))$
7		pwidg	$⊢ A \in ⋃ R_{1} [On] \to A \in 𝒫 A$
8		ssel	$⊢ 𝒫 A \subseteq R_{1} (rank (A)) \to (A \in 𝒫 A \to A \in R_{1} (rank (A)))$
9	6 7 8	syl2imc	$⊢ A \in ⋃ R_{1} [On] \to (𝒫 A \in 𝒫 R_{1} (rank (A)) \to A \in R_{1} (rank (A)))$
10	5 9	syl5bi	$⊢ A \in ⋃ R_{1} [On] \to (𝒫 A \in R_{1} (suc rank (A)) \to A \in R_{1} (rank (A)))$
11	1 10	mtod	$⊢ A \in ⋃ R_{1} [On] \to \neg 𝒫 A \in R_{1} (suc rank (A))$
12		r1rankidb	$⊢ A \in ⋃ R_{1} [On] \to A \subseteq R_{1} (rank (A))$
13	12	sspwd	$⊢ A \in ⋃ R_{1} [On] \to 𝒫 A \subseteq 𝒫 R_{1} (rank (A))$
14	13 4	sseqtrrdi	$⊢ A \in ⋃ R_{1} [On] \to 𝒫 A \subseteq R_{1} (suc rank (A))$
15		fvex	$⊢ R_{1} (suc rank (A)) \in V$
16	15	elpw2	$⊢ 𝒫 A \in 𝒫 R_{1} (suc rank (A)) \leftrightarrow 𝒫 A \subseteq R_{1} (suc rank (A))$
17	14 16	sylibr	$⊢ A \in ⋃ R_{1} [On] \to 𝒫 A \in 𝒫 R_{1} (suc rank (A))$
18	2	onsuci	$⊢ suc rank (A) \in On$
19		r1suc	$⊢ suc rank (A) \in On \to R_{1} (suc suc rank (A)) = 𝒫 R_{1} (suc rank (A))$
20	18 19	ax-mp	$⊢ R_{1} (suc suc rank (A)) = 𝒫 R_{1} (suc rank (A))$
21	17 20	eleqtrrdi	$⊢ A \in ⋃ R_{1} [On] \to 𝒫 A \in R_{1} (suc suc rank (A))$
22		pwwf	$⊢ A \in ⋃ R_{1} [On] \leftrightarrow 𝒫 A \in ⋃ R_{1} [On]$
23		rankr1c	$⊢ 𝒫 A \in ⋃ R_{1} [On] \to (suc rank (A) = rank (𝒫 A) \leftrightarrow (\neg 𝒫 A \in R_{1} (suc rank (A)) \land 𝒫 A \in R_{1} (suc suc rank (A))))$
24	22 23	sylbi	$⊢ A \in ⋃ R_{1} [On] \to (suc rank (A) = rank (𝒫 A) \leftrightarrow (\neg 𝒫 A \in R_{1} (suc rank (A)) \land 𝒫 A \in R_{1} (suc suc rank (A))))$
25	11 21 24	mpbir2and	$⊢ A \in ⋃ R_{1} [On] \to suc rank (A) = rank (𝒫 A)$
26	25	eqcomd	$⊢ A \in ⋃ R_{1} [On] \to rank (𝒫 A) = suc rank (A)$

Metamath Proof Explorer

Theorem rankpwi

Proof