Lemma 10.6.2. The notions finite type and finite presentation have the following permanence properties.
A composition of ring maps of finite type is of finite type.
A composition of ring maps of finite presentation is of finite presentation.
Given $R \to S' \to S$ with $R \to S$ of finite type, then $S' \to S$ is of finite type.
Given $R \to S' \to S$, with $R \to S$ of finite presentation, and $R \to S'$ of finite type, then $S' \to S$ is of finite presentation.
Proof. We only prove the last assertion. Write $S = R[x_1, \ldots , x_ n]/(f_1, \ldots , f_ m)$ and $S' = R[y_1, \ldots , y_ a]/I$. Say that the class $\bar y_ i$ of $y_ i$ maps to $h_ i \bmod (f_1, \ldots , f_ m)$ in $S$. Then it is clear that $S = S'[x_1, \ldots , x_ n]/(f_1, \ldots , f_ m, h_1 - \bar y_1, \ldots , h_ a - \bar y_ a)$. $\square$
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