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$N(R) \subset \operatorname{ann}_R (M)$ if M is simple left module

How do I prove this?

Know that if $a$ is in $N(R)$, then $a^n=0$ for some element. However, don't see how to go from this.

$N(R)=\sum \{ I\}$ where I is nilpotent ideal of R.

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    @Mariano Ah, thanks! Good to have an example.2011-11-26

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From your definition of $N(R)$ it is enough to show that $I \subset \text{ann}_R(M)$ for every nilpotent ideal $I$. So let $I$ be nilpotent and suppose $IM \neq \{0\}$. As $IM$ is a submodule of $M$ and $M$ is simple you get $IM = M$. By induction you get $I^nM = M$ for all $n$ but with $I$ being nilpotent you get $M = \{0\}$ a contradiction to $IM \neq{0}$.