Metamath Proof Explorer

Theorem subgreldmiedg

Description: An element of the domain of the edge function of a subgraph is an element of the domain of the edge function of the supergraph. (Contributed by AV, 20-Nov-2020)

		Ref	Expression
	Assertion	subgreldmiedg	\|- ( ( S SubGraph G /\ X e. dom ( iEdg ` S ) ) -> X e. dom ( iEdg ` G ) )

Proof

Step	Hyp	Ref	Expression
1		eqid	\|- ( Vtx ` S ) = ( Vtx ` S )
2		eqid	\|- ( Vtx ` G ) = ( Vtx ` G )
3		eqid	\|- ( iEdg ` S ) = ( iEdg ` S )
4		eqid	\|- ( iEdg ` G ) = ( iEdg ` G )
5		eqid	\|- ( Edg ` S ) = ( Edg ` S )
6	1 2 3 4 5	subgrprop2	\|- ( S SubGraph G -> ( ( Vtx ` S ) C_ ( Vtx ` G ) /\ ( iEdg ` S ) C_ ( iEdg ` G ) /\ ( Edg ` S ) C_ ~P ( Vtx ` S ) ) )
7		dmss	\|- ( ( iEdg ` S ) C_ ( iEdg ` G ) -> dom ( iEdg ` S ) C_ dom ( iEdg ` G ) )
8	7	3ad2ant2	\|- ( ( ( Vtx ` S ) C_ ( Vtx ` G ) /\ ( iEdg ` S ) C_ ( iEdg ` G ) /\ ( Edg ` S ) C_ ~P ( Vtx ` S ) ) -> dom ( iEdg ` S ) C_ dom ( iEdg ` G ) )
9	8	sseld	\|- ( ( ( Vtx ` S ) C_ ( Vtx ` G ) /\ ( iEdg ` S ) C_ ( iEdg ` G ) /\ ( Edg ` S ) C_ ~P ( Vtx ` S ) ) -> ( X e. dom ( iEdg ` S ) -> X e. dom ( iEdg ` G ) ) )
10	6 9	syl	\|- ( S SubGraph G -> ( X e. dom ( iEdg ` S ) -> X e. dom ( iEdg ` G ) ) )
11	10	imp	\|- ( ( S SubGraph G /\ X e. dom ( iEdg ` S ) ) -> X e. dom ( iEdg ` G ) )