Most students coming into junior level courses are familiar with the elementary cases of solving for the electrostatic potential or electric field of a given charge distribution. In their sophomore, and even junior level courses, students do not move too far beyond these elementary problems; instead they are given scenarios which involve a high amount of symmetry. Paradigms does not take this approach. Rather Paradigms has students calculate electrostatic and magnetostatic fields in non-symmetric cases. Many of the calculations involve integrals for which there is no known closed form solution. This sequence is motivated by these non-elementary problems and has students use power series approximations so that students can exploit power series ideas to visualize the electrostatic potential due to a pair of charges. The techniques students learn in this sequence can then be applied to future, more complex problems, such as the potential due to a ring of charge.
This sequence is divided into two sequences: Electrostatic Potential and $\frac{1}{|\vec{r}-\vec{r}'|}$ and Power Series Approximations. Electrostatic Potential and $\frac{1}{|\vec{r}-\vec{r}'|}$ introduces students to the notation used in calculating electrostatic potential and be skipped if students know how to calculate the distance between two points using position vectors and know the electrostatic potential due to a point charge. The Power Series Approximations sequence has two activities which are meant to be used together for students to calculate coefficients of power series in Calculating Coefficients for a Power Series and then see the accuracy of the approximations with different numbers of terms in Approximating Functions with a Power Series. These activities are followed by an example of when power series are used in a problem; here, the selected activity is to calculate the electrostatic potential due to two point charges.