Lemma 9.12.10. Assumptions and notation as in Situation 9.12.7. If each $P_ i$ is separable, i.e., each $\alpha _ i$ is separable over $K_{i - 1}$, then
and the field extension $K/F$ is separable. If one of the $\alpha _ i$ is not separable over $K_{i - 1}$, then $|\mathop{\mathrm{Mor}}\nolimits _ F(K, \overline{F})| < [K : F]$.
Proof. If $\alpha _ i$ is separable over $K_{i - 1}$ then $\deg _ s(P_ i) = \deg (P_ i) = [K_ i : K_{i - 1}]$ (last equality by Lemma 9.9.2). By multiplicativity (Lemma 9.7.7) we have
where the last equality is Lemma 9.12.9. By the exact same argument we get the strict inequality $|\mathop{\mathrm{Mor}}\nolimits _ F(K, \overline{F})| < [K : F]$ if one of the $\alpha _ i$ is not separable over $K_{i - 1}$.
Finally, assume again that each $\alpha _ i$ is separable over $K_{i - 1}$. We will show $K/F$ is separable. Let $\gamma = \gamma _1 \in K$ be arbitrary. Then we can find additional elements $\gamma _2, \ldots , \gamma _ m$ such that $K = F(\gamma _1, \ldots , \gamma _ m)$ (for example we could take $\gamma _2 = \alpha _1, \ldots , \gamma _{n + 1} = \alpha _ n$). Then we see by the last part of the lemma (already proven above) that if $\gamma $ is not separable over $F$ we would have the strict inequality $|\mathop{\mathrm{Mor}}\nolimits _ F(K, \overline{F})| < [K : F]$ contradicting the very first part of the lemma (already prove above as well). $\square$
Your email address will not be published. Required fields are marked.
In your comment you can use Markdown and LaTeX style mathematics (enclose it like $\pi$). A preview option is available if you wish to see how it works out (just click on the eye in the toolbar).
All contributions are licensed under the GNU Free Documentation License.
Comments (0)
There are also: