Regular solid clock
A while ago I was pondering the symmetries of Platonic solids and a strange thing occurred to me. The number of rotational symmetries for the tetrahedron, cube, octahedron, dodecahedron, and icosahedron are 12, 24, 24, 60, and 60 respectively $^\dagger$. These happen to match the number of hours in an afternoon (I'm told mornings have the same number), the number of hours in a day, the number of minutes in an hour, and the number of seconds in a minute. This is probably a coincidence due to the fact that the Babylonians (who created our time system) used base 60, and 60 is divisible by a lot of small numbers. But it's nice to imagine, and just possible, that they were thinking about regular solids when then came up with the system for measuring time. It's just turned midnight When this occurred to me a picture jumped into my head, which I've tried to recreate above. It's a clock built from platonic solids. Every second one or more of them rotate...