Metamath Proof Explorer

Theorem en3lplem1VD

Description: Virtual deduction proof of en3lplem1 . (Contributed by Alan Sare, 24-Oct-2011) (Proof modification is discouraged.) (New usage is discouraged.)

		Ref	Expression
	Assertion	en3lplem1VD	\|- ( ( A e. B /\ B e. C /\ C e. A ) -> ( x = A -> E. y ( y e. { A , B , C } /\ y e. x ) ) )

Proof

Step	Hyp	Ref	Expression
1		idn1	\|- (. ( A e. B /\ B e. C /\ C e. A ) ->. ( A e. B /\ B e. C /\ C e. A ) ).
2		simp3	\|- ( ( A e. B /\ B e. C /\ C e. A ) -> C e. A )
3	1 2	e1a	\|- (. ( A e. B /\ B e. C /\ C e. A ) ->. C e. A ).
4		tpid3g	\|- ( C e. A -> C e. { A , B , C } )
5	3 4	e1a	\|- (. ( A e. B /\ B e. C /\ C e. A ) ->. C e. { A , B , C } ).
6		idn2	\|- (. ( A e. B /\ B e. C /\ C e. A ) ,. x = A ->. x = A ).
7		eleq2	\|- ( x = A -> ( C e. x <-> C e. A ) )
8	7	biimprd	\|- ( x = A -> ( C e. A -> C e. x ) )
9	6 3 8	e21	\|- (. ( A e. B /\ B e. C /\ C e. A ) ,. x = A ->. C e. x ).
10		pm3.2	\|- ( C e. { A , B , C } -> ( C e. x -> ( C e. { A , B , C } /\ C e. x ) ) )
11	5 9 10	e12	\|- (. ( A e. B /\ B e. C /\ C e. A ) ,. x = A ->. ( C e. { A , B , C } /\ C e. x ) ).
12		elex22	\|- ( ( C e. { A , B , C } /\ C e. x ) -> E. y ( y e. { A , B , C } /\ y e. x ) )
13	11 12	e2	\|- (. ( A e. B /\ B e. C /\ C e. A ) ,. x = A ->. E. y ( y e. { A , B , C } /\ y e. x ) ).
14	13	in2	\|- (. ( A e. B /\ B e. C /\ C e. A ) ->. ( x = A -> E. y ( y e. { A , B , C } /\ y e. x ) ) ).
15	14	in1	\|- ( ( A e. B /\ B e. C /\ C e. A ) -> ( x = A -> E. y ( y e. { A , B , C } /\ y e. x ) ) )