theorem
  for a being Element of free_QC-variables(A) for x being Element of
  bound_QC-variables(A) holds a <> x
proof
  let a be Element of free_QC-variables(A);
  let x be Element of bound_QC-variables(A);
  consider x1,x2 being object such that
A1: x1 in {4} and
  x2 in QC-symbols(A) and
A2: x = [x1,x2] by ZFMISC_1:def 2;
  consider a1,a2 being object such that
A3: a1 in {6} and
  a2 in NAT and
A4: a = [a1,a2] by ZFMISC_1:def 2;
A5: a1 = 6 by A3,TARSKI:def 1;
  x1 = 4 by A1,TARSKI:def 1;
  hence thesis by A2,A4,A5,XTUPLE_0:1;
end;
