Let 
\begin{align}
f(t)=\sum_{i=1}^n a_i e^{-(x_i-t)^2}-c
\end{align} 
where $x_1<x_2<...< x_n$ and $a_i>0$. For some positive constant $c$. 

 Can we show that  $f(t)$ has at most $2n$ zeros? 

The intuition here is that if $n=1$ we have a simple bell curve. Then,  a horizontal line $c$ can cross it at most $2$ times. Now if  $n=2 $, then we have two mixed bell curves and we get at most $4$ crossings.