Support of a module

In commutative algebra, the support of a module M over a commutative ring A is the set of all prime ideals $\mathfrak{p}$ of A such that $M_\mathfrak{p} \ne 0$ .^[1] It is denoted by $\operatorname{Supp}(M)$ . In particular, $M = 0$ if and only if its support is empty.

Let $0 \to M' \to M \to M'' \to 0$ be an exact sequence of A-modules. Then

$\operatorname{Supp}(M) = \operatorname{Supp}(M') \cup \operatorname{Supp}(M'').$
If $M$ is a sum of submodules $M_\lambda$ , then $\operatorname{Supp}(M) = \cup_\lambda \operatorname{supp}(M_\lambda).$
If $M$ is a finitely generated A-module, then $\operatorname{Supp}(M)$ is the set of all prime ideals containing the annihilator of M. In particular, it is closed.
If $M, N$ are finitely generated A-modules, then

$\operatorname{Supp}(M \otimes_A N) = \operatorname{Supp}(M) \cap \operatorname{Supp}(N).$
If $M$ is a finitely generated A-module and I is an ideal of A, then $\operatorname{Supp}(M/IM)$ is the set of all prime ideals containing $I + \operatorname{Ann}(M).$ This is $V(I)\cap \operatorname{Supp}(M)$ .