%I #8 Mar 30 2012 18:57:49
%S 2,4,5,6,7,8,9,10,10,12,12,12,13,14,14,15,15,16,17,18,18,18,20,20,20,
%T 21,21,22,23,24,24,24,25,26,26,27,27,28,28,28,28,30,30,30,31,32,32,32,
%U 33,33,34,34,35,35,36,36,36,36,36,38,38,39,40,40,40,42,42,42,42
%N Positive integers a for which there is a (3/4)-Pythagorean triple (a,b,c) satisfying a<=b.
%C See A195770 for definitions of k-Pythagorean triple, primitive k-Pythagorean triple, and lists of related sequences.
%t z8 = 900; z9 = 250; z7 = 200;
%t k = 3/4; c[a_, b_] := Sqrt[a^2 + b^2 + k*a*b];
%t d[a_, b_] := If[IntegerQ[c[a, b]], {a, b, c[a, b]}, 0]
%t t[a_] := Table[d[a, b], {b, a, z8}]
%t u[n_] := Delete[t[n], Position[t[n], 0]]
%t Table[u[n], {n, 1, 15}]
%t t = Table[u[n], {n, 1, z8}];
%t Flatten[Position[t, {}]]
%t u = Flatten[Delete[t, Position[t, {}]]];
%t x[n_] := u[[3 n - 2]];
%t Table[x[n], {n, 1, z7}] (* A196252 *)
%t y[n_] := u[[3 n - 1]];
%t Table[y[n], {n, 1, z7}] (* A196253 *)
%t z[n_] := u[[3 n]];
%t Table[z[n], {n, 1, z7}] (* A196254 *)
%t x1[n_] := If[GCD[x[n], y[n], z[n]] == 1, x[n], 0]
%t y1[n_] := If[GCD[x[n], y[n], z[n]] == 1, y[n], 0]
%t z1[n_] := If[GCD[x[n], y[n], z[n]] == 1, z[n], 0]
%t f = Table[x1[n], {n, 1, z9}];
%t x2 = Delete[f, Position[f, 0]] (* A196255 *)
%t g = Table[y1[n], {n, 1, z9}];
%t y2 = Delete[g, Position[g, 0]] (* A196256 *)
%t h = Table[z1[n], {n, 1, z9}];
%t z2 = Delete[h, Position[h, 0]] (* A196257 *)
%Y Cf. A195770, A196253, A196254, A196255.
%K nonn
%O 1,1
%A _Clark Kimberling_, Sep 30 2011