This is a front-end for the Online Encyclopedia of Integer Sequences, made by Christian Perfect. The idea is to provide OEIS entries in non-ancient HTML, and then to think about how they're presented visually. The source code is on GitHub.
%I A119870 #5 Mar 31 2012 10:29:09 %S A119870 12,6,24,12,24,32,48,54,36,24,48,24,72,72,48,60,48,54,72,72,72,72,48, %T A119870 56,132,96,120,96,72,72,96,102,96,96,120,84,120,144,96,72,120,72,168, %U A119870 168,120,120,144,168,108,126,168,72,144,152,144,144,192,120,144,144 %N A119870 Number of vertices of the root-n Waterman polyhedron. %C A119870 The root-n Waterman polyhedron is the convex hull of the intersection of a closed ball of radius sqrt(2*n) with the lattice of sphere-center points of a cubic close packing. [Probably the f.c.c. lattice is intended here. - _N. J. A. Sloane_, Aug 09 2006] %C A119870 The basic sphere center series of Waterman polyhedra is obtained by choosing a sphere center as the center of the closed ball. Other choices are possible. An example is given in A119874 ... A119878. For n in A055039 no lattice points are hit; the corresponding polyhedra are the same as for n-1. %Y A119870 Cf. A119870, A119875 [vertices of void-centered Waterman polyhedron]. %Y A119870 Cf. A055039 [missing polyhedra]. Properties of Waterman polyhedra: A119870 [vertices], A119871 [faces], A119872 [edges], A119873 [volume]. Waterman polyhedra with different center: A119874, A119875, A119876, A119877, A119878. %K A119870 nonn %O A119870 1,1 %A A119870 _Hugo Pfoertner_, May 26 2006