Metamath Proof Explorer

 |-  V = ( Vtx ` G )

 |-  E = ( iEdg ` G )

 |-  g e. _V

 |-  ( ( G e. UMGraph /\ ( ( Vtx ` g ) = V /\ ( iEdg ` g ) = ( E |` A ) ) ) -> g e. _V )

 |-  ( ( G e. UMGraph /\ ( ( Vtx ` g ) = V /\ ( iEdg ` g ) = ( E |` A ) ) ) -> ( Vtx ` g ) = V )

 |-  ( ( G e. UMGraph /\ ( ( Vtx ` g ) = V /\ ( iEdg ` g ) = ( E |` A ) ) ) -> ( iEdg ` g ) = ( E |` A ) )

 |-  ( ( G e. UMGraph /\ ( ( Vtx ` g ) = V /\ ( iEdg ` g ) = ( E |` A ) ) ) -> G e. UMGraph )

 |-  ( ( G e. UMGraph /\ ( ( Vtx ` g ) = V /\ ( iEdg ` g ) = ( E |` A ) ) ) -> g e. UMGraph )

 |-  ( G e. UMGraph -> ( ( ( Vtx ` g ) = V /\ ( iEdg ` g ) = ( E |` A ) ) -> g e. UMGraph ) )

 |-  ( G e. UMGraph -> A. g ( ( ( Vtx ` g ) = V /\ ( iEdg ` g ) = ( E |` A ) ) -> g e. UMGraph ) )

 |-  V e. _V

 |-  ( G e. UMGraph -> V e. _V )

 |-  E e. _V

 |-  ( E |` A ) e. _V

 |-  ( G e. UMGraph -> ( E |` A ) e. _V )

 |-  ( G e. UMGraph -> <. V , ( E |` A ) >. e. UMGraph )