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Theorem cnvexg 2669

Description: The converse of a set is a set. Corollary 6.8(1) of [TakeutiZaring] p. 26.

**Assertion**
Ref	Expression
cnvexg

**Proof of Theorem cnvexg**
Step	Hyp	Ref	Expression
1		relcnv 2624	. . 3
2		relssdr 2668	. . 3
3	1, 2	ax-mp 6	. 2
4		rnexg 2569	. . . . 5
5		df-rn 2429	. . . . . 6
6	5	eleq1i 1152	. . . . 5
7	4, 6	sylib 173	. . . 4
8		dmexg 2551	. . . . 5
9		dfdm4 2525	. . . . . 6
10	9	eleq1i 1152	. . . . 5
11	8, 10	sylib 173	. . . 4
12	7, 11	jca 236	. . 3 $/\$
13		xpexg 2489	. . 3 $/\$
14		ssexg 1702	. . 3
15	12, 13, 14	3syl 21	. 2
16	3, 15	mpi 44	1

Colors of variables: wff set class

Syntax hints:

wi 2 $/\$ wa 196

wcel 1092

cvv 1348

wss 1487

cxp 2408

ccnv 2409

cdm 2410

crn 2411

wrel 2415

This theorem is referenced by: cnvex 2670 fodom 3613

This theorem was proved from axioms: ax-1 3 ax-2 4 ax-3 5 ax-mp 6 ax-4 673 ax-5 674 ax-6 675 ax-7 676 ax-gen 677 ax-8 798 ax-9 799 ax-10 800 ax-11 801 ax-12 802 ax-13 804 ax-14 805 ax-16 922 ax-17 925 ax-ext 1074 ax-rep 1075 ax-un 1076 ax-pow 1077

This theorem depends on definitions: df-bi 128 df-or 197 df-an 198 df-ex 679 df-sb 853 df-clab 1093 df-cleq 1097 df-clel 1099 df-v 1349 df-dif 1489 df-un 1490 df-in 1491 df-ss 1492 df-nul 1708 df-pw 1799 df-sn 1811 df-pr 1812 df-op 1815 df-uni 1920 df-br 2063 df-opab 2098 df-xp 2424 df-rel 2425 df-cnv 2426 df-dm 2428 df-rn 2429