reserve x for set,
  D for non empty set,
  k, n for Element of NAT,
  z for Nat;
reserve N for with_zero set,
  S for
    IC-Ins-separated non empty with_non-empty_values AMI-Struct over N,
  i for Element of the InstructionsF of S,
  l, l1, l2, l3 for Element of NAT,
  s for State of S;
reserve ss for Element of product the_Values_of S;
reserve T for weakly_standard
 IC-Ins-separated non empty
  with_non-empty_values AMI-Struct over N;

theorem Th8:
  for N,T
  for k1, k2 being natural Number holds
  il.(T,k1) <= il.(T,k2), T iff k1 <= k2
proof let N,T;
  let k1, k2 be natural Number;
A1: k1 is Element of NAT & k2 is Element of NAT by ORDINAL1:def 12;
  consider f2 being sequence of NAT such that
A2: f2 is bijective & for m, n being Element of NAT holds m <= n iff f2.
  m <= f2. n, T and
A3: il.(T,k2) = f2.k2 by Def4;
  consider f1 being sequence of NAT such that
A4: f1 is bijective and
A5: for m, n being Element of NAT holds m <= n iff f1.m <= f1.n, T and
A6: il.(T,k1) = f1.k1 by Def4;
  f1 = f2 by A4,A5,A2,Th2;
  hence thesis by A1,A5,A6,A3;
end;
