There is considerable literature on this question, and closely related variations. See: - The [*Thompson problem*](https://en.wikipedia.org/wiki/Thomson_problem): Which configurations of $n$ electrons on a sphere minimize the electrostatic potential energy? - The [*Tammes problem*](https://en.wikipedia.org/wiki/Tammes_problem): Which configurations of $n$ points on a sphere maximizes the smallest distance between any two points? Sometimes phrased as packing $n$ congruent circles on a sphere: <hr /> ![DiskPacking][1] <br /> <sup> (Image from [Paul Sutcliffe](http://www.maths.dur.ac.uk/~dma0pms/my-projects/proj4_1213.html).) </sup> <hr /> According to > Musin, Oleg R., and Alexey S. Tarasov. "The Tammes problem for $N=14$." [arXiv:1410.2536 Abstract](http://arxiv.org/abs/1410.2536) (2014). the Tammes problem is solved exactly for - For $n=3,4,6,12$ by L. Fejes Toth (1943). - For $n=5,7,8,9$ by Schütte and van der Waerden (1951). - For $n=10,11$ by Danzer (1963). - For $n=24$ by Robinson (1961). - For $n=13, 14$ by Musin and Tarsov (2014). <hr /> [![N=14.][2]][2] <br /> <sup> Fig.1 from Musin and Tarsov: $n=14$. </sup> <hr /> [1]: https://i.sstatic.net/fxBXg.jpg [2]: https://i.sstatic.net/bHCTF.png