reserve X for non empty set,
  Y for set,
  S for SigmaField of X,
  M for sigma_Measure of S,
  f,g for PartFunc of X,COMPLEX,
  r for Real,
  c for Complex,
  E,A,B for Element of S;

theorem Th33:
  f is_integrable_on M & g is_integrable_on M implies f+g is_integrable_on M
proof
  assume that
A1: f is_integrable_on M and
A2: g is_integrable_on M;
A3: Im g is_integrable_on M by A2;
  Im f is_integrable_on M by A1;
  then Im(f)+ Im(g) is_integrable_on M by A3,MESFUNC6:100;
  then
A4: Im(f+g) is_integrable_on M by Th5;
A5: Re g is_integrable_on M by A2;
  Re f is_integrable_on M by A1;
  then Re(f)+ Re(g) is_integrable_on M by A5,MESFUNC6:100;
  then Re(f+g) is_integrable_on M by Th5;
  hence thesis by A4;
end;
