Question:
What is the value of $b+c$ if $x^2+bx+c>0$ only when $x\in (-\infty, -2)\cup(3,\infty)$?

Answer:
When $x<-2$ or $x>3$, we have $x^2+bx+c>0$. That means that $x^2+bx+c=0$ at $x=-2$ and $x=3$. So, the parabola has roots at -2 and 3, giving us $(x+2)(x-3)=0$. We can now write $x^2+bx+c=(x+2)(x-3)=x^2-x-6$. Thus, $b=-1$, $c=-6$, and $b+c=-1+(-6)=\boxed{-7}$.