I thought the center of mass equation was derived for general forces, $$\sum{\vec{F_{ext}}}=M\vec{a_{CM}}$$
Then suddenly when the external force on the $i$ particle is of the form $m_ig_i$, where $g_i$ varies throughout the body, we have to use this equation:
$$\vec{W}=M\vec{a_{CG}}$$
where $CG$ is a different point than $CM$. So, what makes gravity special?
EDIT: I'm not asking the difference between them. They have different formulas, so obviously they have different values when $g$ is not constant.
I'm asking why doesn't the resultant gravitational force or $W$ can't be thought of as acting on the center of mass when the center of mass equation is derived for any general external force.
the center of mass equation is derived for any general external force: Not true. The center of mass is simply a (mass) weighted average position, it makes no reference to any force, generic or not. $\endgroup$