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 A342559 #5 Jun 04 2021 22:35:14 %S A342559 2,3,4,6,8,9,10,11,12,20,24,32,38,42,44,48 %N A342559 Number of equal spheres setting a new density record in relation to the volume of the spherical layer that is occupied by the spheres when arranged touching the surface of a container sphere according to the criterion of maximizing their minimum mutual distance. %C A342559 This sequence is analogous to A084829, sharing the terms up to 12, but with the restriction that only arrangements are considered in which all small spheres touch the surface of the container sphere and the inner area remains empty. Formal proofs of optimality exist only for arrangements up to and including 14 and for 24 spheres, but the last improvements in the range of the specified terms were found before 1994. For references and links see A080865. %C A342559 A conjectured continuation after the term 48 is 72, 78, 84, 92, 98, 120. %C A342559 The linked illustration also shows a fitted curve estimating the minimum density achievable by optimal solutions of the Tammes problem for large n. The fitted equation is rho_min(n) = 0.565854 - 1/(0.566242*n + 2.67822). For comparison, consider the highest attainable density of spheres arranged in a flat hexagonal grid. This density is 0.604599788... = Pi * sqrt(3)/9. Achieving this density is made more difficult in the curved surface layer of a sphere because with large n there must always be 12 neighborhoods where the spheres packed in this layer can only have 5 nearest neighbors. %H A342559 Hugo Pfoertner, <a href="/A342559/a342559.png">Illustration of volume fraction of spheres in surface layer</a>, (2021). %e A342559 a(n) Volume fraction in layer (rounded) %e A342559 2 0.25000 %e A342559 3 0.30000 %e A342559 4 0.36364 %e A342559 6 0.42857 %e A342559 8 0.43853 %e A342559 9 0.45000 %e A342559 10 0.45152 %e A342559 11 0.46397 %e A342559 12 0.50615 %e A342559 20 0.51162 %e A342559 24 0.52941 %e A342559 32 0.53205 %e A342559 38 0.53373 %e A342559 42 0.53439 %e A342559 44 0.54286 %e A342559 48 0.54993 %Y A342559 Cf. A080865, A084829, A121346. %K A342559 nonn,more %O A342559 1,1 %A A342559 _Hugo Pfoertner_, Apr 07 2021