Lemma 10.39.13. Suppose that $0 \to M' \to M \to M'' \to 0$ is a short exact sequence of $R$-modules. If $M'$ and $M''$ are flat so is $M$. If $M$ and $M''$ are flat so is $M'$.
Proof. We will use the criterion that a module $N$ is flat if for every ideal $I \subset R$ the map $N \otimes _ R I \to N$ is injective, see Lemma 10.39.5. Consider an ideal $I \subset R$. Consider the diagram
\[ \begin{matrix} 0
& \to
& M'
& \to
& M
& \to
& M''
& \to
& 0
\\ & & \uparrow
& & \uparrow
& & \uparrow
& & \\ & & M'\otimes _ R I
& \to
& M \otimes _ R I
& \to
& M''\otimes _ R I
& \to
& 0
\end{matrix} \]
with exact rows. This immediately proves the first assertion. The second follows because if $M''$ is flat then the lower left horizontal arrow is injective by Lemma 10.39.12. $\square$
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