The Zero Set of an Electrical Field from a Finite Number of Point Charges: One, Two, and Three Dimensions
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abstract
We study the structure of the zero set of a finite point charge electrical field $F = (X,Y,Z)$ in $mathbb R^3$. Indeed, mostly we focus on a finite point charge electrical field $F =(X,Y)$ in $mathbb R^2$. The well-known conjecture is that the zero set of $F = (X,Y)$ is finite. We show that this is true in a Special Case: when the point charges for $F = (X,Y)$ lie on a line. In addition, we give fairly complete structural information about the zero sets of $X$ and $Y$ for $F = (X,Y)$ in the Special Case. A highlight of the paper states that in the Special Case the zero set of $F = (X,Y)$ contains at most $9M^24^M$ points, where $M$ is the number of point charges.