Part 2 In this part of the activity, you are going to develop a procedure to test the relationship between electric potential and E-field strength. First, explore by placing a 1 nC positive point charge in the middle of the screen. Move the voltage probe box to different locations near the charge and click on the pencil sign. Note that the electric potential is the same everywhere on each curve but different on different curves depending on how far the curve is from the 1 nC point charge. You can confirm this by moving the cross hairs of the voltage probe box around the curve and reading off the voltage value. Next, use charges, the voltage probe box, tape measure, and E-field sensor (yellow ball) to determine the relationship between the strength of the electric field in a region and the spacing of equipotential curves. For example, for a given AV between curves, are the equipotential curves farther apart in a region of a strong E filed compared to a weak one? Closer together? Is equipotential configuration independent of E field strength? When you make equipotential curves that have an equal AV between them, how does their spacing relate to E field?

College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Part 2
In this part of the activity, you are going to develop a procedure to test the relationship between electric potential and
E-field strength.
First, explore by placing a 1 nC positive point charge in the middle of the screen. Move the voltage probe box to
different locations near the charge and click on the pencil sign. Note that the electric potential is the same
everywhere on each curve but different on different curves depending on how far the curve is from the 1 nC point
charge. You can confirm this by moving the cross hairs of the voltage probe box around the curve and reading off
the voltage value.
Next, use charges, the voltage probe box, tape measure, and E-field sensor (yellow ball) to determine the
relationship between the strength of the electric field in a region and the spacing of equipotential curves. For
example, for a given AV between curves, are the equipotential curves farther apart in a region of a strong E filed
compared to a weak one? Closer together? Is equipotential configuration independent of E field strength? When
you make equipotential curves that have an equal AV between them, how does their spacing relate to E field?
Transcribed Image Text:Part 2 In this part of the activity, you are going to develop a procedure to test the relationship between electric potential and E-field strength. First, explore by placing a 1 nC positive point charge in the middle of the screen. Move the voltage probe box to different locations near the charge and click on the pencil sign. Note that the electric potential is the same everywhere on each curve but different on different curves depending on how far the curve is from the 1 nC point charge. You can confirm this by moving the cross hairs of the voltage probe box around the curve and reading off the voltage value. Next, use charges, the voltage probe box, tape measure, and E-field sensor (yellow ball) to determine the relationship between the strength of the electric field in a region and the spacing of equipotential curves. For example, for a given AV between curves, are the equipotential curves farther apart in a region of a strong E filed compared to a weak one? Closer together? Is equipotential configuration independent of E field strength? When you make equipotential curves that have an equal AV between them, how does their spacing relate to E field?
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