defpred S1[ set ] means ex A1 being Subset of GX st
( A1 = $1 & A1 is connected & x in $1 );
consider F being Subset-Family of GX such that
A1: for A being Subset of GX holds
( A in F iff S1[A] ) from SUBSET_1:sch 3();
 take union F ; :: thesis: ex F being Subset-Family of GX st
( ( for A being Subset of GX holds
( A in F iff ( A is connected & x in A ) ) ) & union F = union F )
take F ; :: thesis: ( ( for A being Subset of GX holds
( A in F iff ( A is connected & x in A ) ) ) & union F = union F )
thus for A being Subset of GX holds
( A in F iff ( A is connected & x in A ) ) :: thesis: union F = union F
proof
let A be Subset of GX; :: thesis: ( A in F iff ( A is connected & x in A ) )
thus ( A in F implies ( A is connected & x in A ) ) :: thesis: ( A is connected & x in A implies A in F )
proof
assume A in F ; :: thesis: ( A is connected & x in A )
then ex A1 being Subset of GX st
( A1 = A & A1 is connected & x in A ) by A1;
hence ( A is connected & x in A ) ; :: thesis: verum
end;
thus ( A is connected & x in A implies A in F ) by A1; :: thesis: verum
end;
thus union F = union F ; :: thesis: verum