I've been reading about stereographic projections. I did a problem about finding the stereographic projection of a cube inscribed inside the Riemann sphere with edges parallel to the coordinate axes. This was simple since the 8 vertices have coordinates $(\pm a,\pm a,\pm a)$, with $3a^2=1$.
Trying it with a regular tetrahedron is a little tougher for me. If a regular tetrahedron is inscribed in the Riemann sphere in general position, with two vertices $(x_1,x_2,x_3)$ and (x'_1,x'_2,x'_3), is there some way to compute the coordinates of the other 2 vertices in terms of x_1,x_2,x_3,x'_1,x'_2,x'_3 in order to compute the stereographic projection of the vertices? How could this be done otherwise, if not?
Thanks!