Table of Contents

Navigate back to the activity.

Electric Field Due to a Charged Ring: Instructor's Guide

Main Ideas

Students' Task

Estimated Time: 40 min; Wrap-up: 10 min

  1. Students should be assigned to work in groups of three and given the following instructions using the visual of a hula hoop or other large ring: “This is a ring with total charge $Q$ and radius $R$. Find the electrical field due to this ring in all space.” Students do their work collectively with markers on a poster-sized sheet of whiteboard at their tables.
  2. Students determine the power series expansion to represent the electric field due to the charged ring along a particular axis.
    • Note: students should not be told about part II until they have completed part I.

Prerequisite Knowledge

This activity is may be used as a part of the Ring Sequence, following the Electrostatic potential due to a ring of charge activity, or may be used on its own. Students will need understanding of:

Props/Equipment

Activity: Introduction

Students should be assigned to work in groups of three and given the following instructions using the visual of a hula hoop or other large ring: “This is a ring with total charge $Q$ and radius $R$. Find the electrical field due to this ring in all space.”

Activity: Student Conversations

FIXME Point this toward the Vring activity, then add reflections and student conversations particular to Ering. This change also needs to be implemented in Aring and Bring.

Part I - Finding the electric field everywhere in space: Creating an elliptic integral

Part II - Finding the potential along an axis: Power series expansion

Notes from 2019 FIXME Everything above this is copied and pasted in the Student Conversations for the Electrostatic potential due to a ring of charge Activity

$$ r-r' = (s-s')\hat s + (\phi-\phi') \hat \phi + (z-z') \hat z \quad \text{does not imply} \quad r=s \hat s + \phi \hat \phi + z \hat z$$

Activity: Wrap-up

Extensions

This activity is a part of the Ring Sequence, which uses a sequence of activities with similar geometries to help students learn how to solve a hard activity by breaking it up into several steps (A Master's Thesis about the Ring Sequence). The other activities in the sequence are: