In Hoffman and kunze linear algebra Sec.7.1 , p-228.
If $T$ be a linear operator on a finite dimensional vector space$ V$ over a field $F $.
I can understand how minimal polynomial of a linear operator $ T$ belongs to the ideal $T$-annihilator of $\alpha$ , for every $\alpha \in V,$ as $M (\alpha ;T) $.
But I can't understand how every element of the ideal $T$-annihilator of $\alpha $ divide the minimal polynomial of $T $.
the confusion started from p-202 , sec-6.4 ,
where in the case of $T $-conductor of $\alpha $ into $W $ , $S (\alpha; W) $ . In Hoffman and kunze it's written that " every $T$-conductor divides the minimal polynomial for $T $".
Please help.
Every element of the $T$-annihilator of $\alpha$, $M(\alpha; T)$, does not divide the minimal polynomial $m_T$ of $T.$ For example, $m_T^2\in M(\alpha; T)$. It's the generator $p_\alpha$ of $M(\alpha; T)$ that divides $m_T$, which is clear since $m_T\in M(\alpha; T)$ and $p_\alpha$ divides every element of $M(\alpha; T)$. I think you are getting confused because Hoffman and Kunze call both $M(\alpha; T)$ and $p_\alpha$ the $T$-annihilator of $\alpha$; you'll have to pay attention to context to determine whether they mean the ideal or the generator in any particular argument.