In the answers to this question it is shown that the surface area of a cube equals twice the square of the length of its diagonal.
This is very much related to the following algebraic claim:
Three numbers $a,b,c\in \mathbb{R}$ satisfy $a=b=c$ if and only if $a^2 + b^2 + c^2 = ab + bc + ac$.
Given a rectangular cuboid with sides $a,b,c$, the LHS of the equality is the square of the length of the diagonal. The RHS of the equation is half of the surface area. Therefore, A geometric formulation of the algebraic claim would be:
The surface area of a rectangular cuboid equals twice the square of the length of its diagonal if and only if it's a cube.
I would like to know if anyone can come up with a geometric proof of this claim. To start with, I don't even have any geometric intuition for why this equality is correct for a cube.