A finite field cannot be an ordered field.

HINT: Suppose that $(F,0,1,+,\cdot,<)$ is an ordered field which is finite of characteristic $p$. Then $0<1<1+1<\ldots$, conclude a contradiction.


Hint $\ $ In an ordered ring, positives are closed under addition (so a sum of positives is $\ne 0$).

Remark $\ $ More generally, note that linearly ordered groups are torsion-free: $\rm\: 0\ne n\in \mathbb N,$ $\rm\:g>0 \:\Rightarrow\: n\cdot g = g +\cdots + g > 0,\:$ since positives are closed under addition. Conversely, a torsion-free commutative group can be linearly ordered (Levi, $1942$).


Hint: any finite field must have a non-zero characteristic.

Tags:

Abstract Algebra

Ordered Fields

Field Theory

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