theorem
  for f being Function of T,TOP-REAL n, g being Function of T,R^1 holds
  f</>g = f<//>incl(g,n)
  proof
    let f be Function of T,TOP-REAL n;
    let g be Function of T,R^1;
    set I = incl(g,n);
    reconsider h = f</>g as Function of T,TOP-REAL n by Th46;
    reconsider G = f<//>I as Function of T,TOP-REAL n by Th42;
    h = G
    proof
      let t be Point of T;
A1:   dom h = the carrier of T by FUNCT_2:def 1;
A2:   f.t /" I.t = f.t (#) (g".t)
      proof
A3:     dom (f.t) = Seg n & dom (I.t) = Seg n by FINSEQ_1:89;
A4:     dom (f.t /" I.t) = dom (f.t) /\ dom (I.t) by VALUED_1:16
        .= Seg n by A3;
        hence dom (f.t /" I.t) = dom (f.t (#) g".t) by FINSEQ_1:89;
        let x be object;
        assume
A5:     x in dom (f.t /" I.t);
        thus (f.t /" I.t).x = f.t.x / I.t.x by VALUED_1:17
        .= f.t.x / g.t by A4,A5,Th47
        .= f.t.x * (g".t) by VALUED_1:10
        .= (f.t (#) g".t).x by VALUED_1:6;
      end;
      dom G = the carrier of T by FUNCT_2:def 1;
      hence G.t = f.t /" I.t by VALUED_2:def 48
      .= h.t by A1,A2,VALUED_2:def 43;
    end;
    hence thesis;
  end;
