ghmf

Description: A group homomorphism is a function. (Contributed by Stefan O'Rear, 31-Dec-2014)

Step	Hyp	Ref	Expression
1		ghmf.x	\|- X = ( Base ` S )
2		ghmf.y	\|- Y = ( Base ` T )
3		eqid	\|- ( +g ` S ) = ( +g ` S )
4		eqid	\|- ( +g ` T ) = ( +g ` T )
5	1 2 3 4	isghm	\|- ( F e. ( S GrpHom T ) <-> ( ( S e. Grp /\ T e. Grp ) /\ ( F : X --> Y /\ A. y e. X A. x e. X ( F ` ( y ( +g ` S ) x ) ) = ( ( F ` y ) ( +g ` T ) ( F ` x ) ) ) ) )
6	5	simprbi	\|- ( F e. ( S GrpHom T ) -> ( F : X --> Y /\ A. y e. X A. x e. X ( F ` ( y ( +g ` S ) x ) ) = ( ( F ` y ) ( +g ` T ) ( F ` x ) ) ) )
7	6	simpld	\|- ( F e. ( S GrpHom T ) -> F : X --> Y )

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