Let $AA_1, BB_1, CC_1$ be the altitudes of $\Delta ABC$ and let $AB \neq BC$. If $M$ is midpoint of $BC$, $H$ the orthocentre of $\Delta ABC$ and $D$ the intersection of $BC$ and $B_1C_1$, prove that $DH \perp AM$
I was trying to come up with a pure geometric proof but haven't got far. These are the following approaches I have come up with:-
- The given conclusion is equivalent to the fact that $H$ is the orthocentre of $\Delta AMD$ which is equivalent to $AD \perp HM$
- The only viable way I could think of to use the fact that $M$ is the midpoint of $BC$ is to consider the nine-point circle of $\Delta ABC$. This coupled with the fact that $D$ lies on the common chord (radical axis) of the nine point circle and the diametric circle of $AH$ might be helpful.
- I could also see a lot of perpendicular lines in the figure. This might point to an application of Simson's Theorem.
I would like some hints on how to approach the problem. If possible, please try to provide hints that build upon the above approaches.


