alephiso

Description: Aleph is an order isomorphism of the class of ordinal numbers onto the class of infinite cardinals. Definition 10.27 of TakeutiZaring p. 90. (Contributed by NM, 3-Aug-2004)

		Ref	Expression
	Assertion	alephiso	$⊢ ℵ {Isom}_{E, E} (On, \{x \| (ω \subseteq x \land card (x) = x)\})$

Proof

Step	Hyp	Ref	Expression
1		alephfnon	$⊢ ℵ Fn On$
2		isinfcard	$⊢ (ω \subseteq x \land card (x) = x) \leftrightarrow x \in ran ℵ$
3	2	bicomi	$⊢ x \in ran ℵ \leftrightarrow (ω \subseteq x \land card (x) = x)$
4	3	abbi2i	$⊢ ran ℵ = \{x \| (ω \subseteq x \land card (x) = x)\}$
5		df-fo	$⊢ ℵ : On \underset{onto}{⟶} \{x \| (ω \subseteq x \land card (x) = x)\} \leftrightarrow (ℵ Fn On \land ran ℵ = \{x \| (ω \subseteq x \land card (x) = x)\})$
6	1 4 5	mpbir2an	$⊢ ℵ : On \underset{onto}{⟶} \{x \| (ω \subseteq x \land card (x) = x)\}$
7		fof	$⊢ ℵ : On \underset{onto}{⟶} \{x \| (ω \subseteq x \land card (x) = x)\} \to ℵ : On ⟶ \{x \| (ω \subseteq x \land card (x) = x)\}$
8	6 7	ax-mp	$⊢ ℵ : On ⟶ \{x \| (ω \subseteq x \land card (x) = x)\}$
9		aleph11	$⊢ (y \in On \land z \in On) \to (ℵ (y) = ℵ (z) \leftrightarrow y = z)$
10	9	biimpd	$⊢ (y \in On \land z \in On) \to (ℵ (y) = ℵ (z) \to y = z)$
11	10	rgen2	$⊢ \forall y \in On \forall z \in On (ℵ (y) = ℵ (z) \to y = z)$
12		dff13	$⊢ ℵ : On \underset{1-1}{⟶} \{x \| (ω \subseteq x \land card (x) = x)\} \leftrightarrow (ℵ : On ⟶ \{x \| (ω \subseteq x \land card (x) = x)\} \land \forall y \in On \forall z \in On (ℵ (y) = ℵ (z) \to y = z))$
13	8 11 12	mpbir2an	$⊢ ℵ : On \underset{1-1}{⟶} \{x \| (ω \subseteq x \land card (x) = x)\}$
14		df-f1o	$⊢ ℵ : On \underset{1-1 onto}{⟶} \{x \| (ω \subseteq x \land card (x) = x)\} \leftrightarrow (ℵ : On \underset{1-1}{⟶} \{x \| (ω \subseteq x \land card (x) = x)\} \land ℵ : On \underset{onto}{⟶} \{x \| (ω \subseteq x \land card (x) = x)\})$
15	13 6 14	mpbir2an	$⊢ ℵ : On \underset{1-1 onto}{⟶} \{x \| (ω \subseteq x \land card (x) = x)\}$
16		alephord2	$⊢ (y \in On \land z \in On) \to (y \in z \leftrightarrow ℵ (y) \in ℵ (z))$
17		epel	$⊢ y E z \leftrightarrow y \in z$
18		fvex	$⊢ ℵ (z) \in V$
19	18	epeli	$⊢ ℵ (y) E ℵ (z) \leftrightarrow ℵ (y) \in ℵ (z)$
20	16 17 19	3bitr4g	$⊢ (y \in On \land z \in On) \to (y E z \leftrightarrow ℵ (y) E ℵ (z))$
21	20	rgen2	$⊢ \forall y \in On \forall z \in On (y E z \leftrightarrow ℵ (y) E ℵ (z))$
22		df-isom	$⊢ ℵ {Isom}_{E, E} (On, \{x \| (ω \subseteq x \land card (x) = x)\}) \leftrightarrow (ℵ : On \underset{1-1 onto}{⟶} \{x \| (ω \subseteq x \land card (x) = x)\} \land \forall y \in On \forall z \in On (y E z \leftrightarrow ℵ (y) E ℵ (z)))$
23	15 21 22	mpbir2an	$⊢ ℵ {Isom}_{E, E} (On, \{x \| (ω \subseteq x \land card (x) = x)\})$

Metamath Proof Explorer

Theorem alephiso

Proof