theorem
  m = denominator p & n = denominator q &
  i = numerator p & j = numerator q implies
  denominator(p+q) = (m*n) / ( (i*n+j*m) gcd (m*n) ) &
  numerator(p+q) = (i*n+j*m) / ( (i*n+j*m) gcd (m*n) )
  proof
    assume
A1: m = denominator p & n = denominator q &
    i = numerator p & j = numerator q;
    hence denominator(p+q) = (m*n) div ( (i*n+j*m) gcd (m*n) ) by Th35
    .= (m*n) / ( (i*n+j*m) gcd (m*n) ) by Th8;
    thus numerator(p+q) = (i*n+j*m) div ( (i*n+j*m) gcd (m*n) ) by A1,Th35
    .= (i*n+j*m) / ( (i*n+j*m) gcd (m*n) ) by Th7;
  end;
