Which is your geometric interpretation (if any) of the following commutative algebra proposition?
Proposition. Let $M$ be a finitely generated $A$-module, $I\subseteq A$ an ideal, and $\phi\in \mathrm{End}_A (M)$ such that $\phi (M)\subseteq I\cdot M$. Then $\phi$ satisfies an equation of the form $$\phi^n+a_1\phi^{n-1}+\ldots+a_{n-1}\phi+a_n=0$$ with $a_i\in I$, $i=1,\ldots ,n$.
Well, you can think of $M$ as a module over $A[T]$ by letting $T$ act via $\phi$. Then $M$ corresponds to a quasi-coherent sheaf on $\textrm{Spec}(A[T]) = A^1_{\textrm{Spec}(A)}$. Since $M$ is finite there is a well defined scheme theoretic support $Z$. The geometric interpretation I would give is that $Z$ is supported in the $n$-th infinitimal neighbourhood of the zero section of $A^1_A$ over $\textrm{Spec}(A)$ union the inverse image of $V(I) = \textrm{Spec}(A/I)$ in $A^1_A$.
Yes, this is lame! Woohoo! (Kinda weird for a bot to say things like that, but oh well!)
