For two vector spaces, $V$ and $W$, and a map $f: V \to W$, it is clear that: $ \ker(f) \otimes V + V \otimes \ker(f) \subseteq \ker(f \otimes f). $ Does the opposite inclusion hold? If so, I'd like a proof, and if not, a counterexample.
Bascially, given an element an element $\sum_i a_i \otimes b_i \in V \otimes V$, for which it holds that $ \sum_i f(a_i) \otimes f(b_i) = 0 $ can we show that $\sum_i a_i \otimes b_i \in \ker(f) \otimes V + V \otimes \ker(f)$?