If $|\mathbb{C}|=|\mathbb{R}|$ and thus $\mathbb{C}$ is isomorphic to $\mathbb{R}$, why can't $\mathbb{C}$ be totally ordered?
2026-03-26 12:42:10.1774528930
Can $\mathbb{C}$ be totally ordered?
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$\mathbb{C}$ can indeed be totally ordered as a set, since you can find a set bijection to the reals. But for a field the definition of a total order requires that all squares be positive. Since $1$ is positive and $-1$ is negative the fact that $i^2 = -1$ implies that no total order exists.