theorem
  f1 is_hpartial_differentiable`23_in u0 &
  f2 is_hpartial_differentiable`23_in u0 implies
  pdiff1(f1,2)+pdiff1(f2,2) is_partial_differentiable_in u0,3 &
  partdiff(pdiff1(f1,2)+pdiff1(f2,2),u0,3)
  = hpartdiff23(f1,u0) + hpartdiff23(f2,u0)
proof
    assume that
A1: f1 is_hpartial_differentiable`23_in u0 and
A2: f2 is_hpartial_differentiable`23_in u0;
A3: pdiff1(f1,2) is_partial_differentiable_in u0,3 by A1,Th24;
A4: pdiff1(f2,2) is_partial_differentiable_in u0,3 by A2,Th24;then
 pdiff1(f1,2)+pdiff1(f2,2) is_partial_differentiable_in u0,3 &
    partdiff(pdiff1(f1,2)+pdiff1(f2,2),u0,3)
    = partdiff(pdiff1(f1,2),u0,3) + partdiff(pdiff1(f2,2),u0,3)
    by A3,PDIFF_1:29;
    then partdiff(pdiff1(f1,2)+pdiff1(f2,2),u0,3)
    = hpartdiff23(f1,u0) + partdiff(pdiff1(f2,2),u0,3) by A1,Th33
   .= hpartdiff23(f1,u0) + hpartdiff23(f2,u0) by A2,Th33;
    hence thesis by A3,A4,PDIFF_1:29;
end;
