Note that I am only recently learning about electron orbitals and configurations, and electrons aren't each at single specifically defined points in space, not to mention the s orbital is the only spherical orbital. This project was just a fun idea for a simulation to see what shapes electrons (as particles) would collapse to when limited to a spherical shell. EDIT: note that this project does not accurately represent electrons in an atom. It's just a cool idea I had—I took a collection of particles, each induces a force on each other, and they're all confined on the surface of a sphere. The only resemblance to real electrons that this holds is that the force between any two particles attenuates inversely with the square of the distance between the two particles.
If you want to simulate tons of electrons, have a slow computer, or want to possibly override the maximum for fun, I would suggest using the TurboWarp compiler: https://turbowarp.org/#429162709
