Metamath Proof Explorer

Theorem 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 Isom E , E On x | ω x card x = x

Proof

Step Hyp Ref Expression
1 alephfnon Fn On
2 isinfcard ω x card x = x x ran
3 2 bicomi x ran ω x card x = x
4 3 eqabi ran = x | ω x card x = x
5 df-fo : On onto x | ω x card x = x Fn On ran = x | ω x card x = x
6 1 4 5 mpbir2an : On onto x | ω x card x = x
7 fof : On onto x | ω x card x = x : On x | ω x card x = x
8 6 7 ax-mp : On x | ω x card x = x
9 aleph11 y On z On y = z y = z
10 9 biimpd y On z On y = z y = z
11 10 rgen2 y On z On y = z y = z
12 dff13 : On 1-1 x | ω x card x = x : On x | ω x card x = x y On z On y = z y = z
13 8 11 12 mpbir2an : On 1-1 x | ω x card x = x
14 df-f1o : On 1-1 onto x | ω x card x = x : On 1-1 x | ω x card x = x : On onto x | ω x card x = x
15 13 6 14 mpbir2an : On 1-1 onto x | ω x card x = x
16 alephord2 y On z On y z y z
17 epel y E z y z
18 fvex z V
19 18 epeli y E z y z
20 16 17 19 3bitr4g y On z On y E z y E z
21 20 rgen2 y On z On y E z y E z
22 df-isom Isom E , E On x | ω x card x = x : On 1-1 onto x | ω x card x = x y On z On y E z y E z
23 15 21 22 mpbir2an Isom E , E On x | ω x card x = x