College Physics
College Physics
11th Edition
ISBN: 9781305952300
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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Based on the image of the simulation,

What is the magnitude of the Electric Field between the plates in V/m?

According to theory, the energy density stored in an electric field is given by uE=1/2 x εo x E^2 J/m^3. Verify for your value of E from the previous question and show your work.

What is the magnitude of the Electric Field between the plates in V/m? Given: Battery voltage = 1.5 V Plate area: 320 mm² Plate separation: 8.0 mm 1 According to theory, the energy density stored in an electric field is given by u € E²J/m³. E 2 0 Verify for your value of E from the previous question and show your work. Note that the volume between the plates of the capacitor is Ad. Given: € = 8.85 × 10-12 C²/Nm²
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Transcribed Image Text:What is the magnitude of the Electric Field between the plates in V/m? Given: Battery voltage = 1.5 V Plate area: 320 mm² Plate separation: 8.0 mm 1 According to theory, the energy density stored in an electric field is given by u € E²J/m³. E 2 0 Verify for your value of E from the previous question and show your work. Note that the volume between the plates of the capacitor is Ad. Given: € = 8.85 × 10-12 C²/Nm²
1.5 V Capacitance Top Plate Charge Stored Energy OV -1.5 V 0.35 pF 0.53 PC 0.40 pJ ****** **** *** *** *: x *** * x **: O * *** Separation 8.0 mm * *** ********** ********** Plate Area 320 mm² Voltage 1.500 V Plate Charges Bar Graphs Electric Field Current Direction G
expand button
Transcribed Image Text:1.5 V Capacitance Top Plate Charge Stored Energy OV -1.5 V 0.35 pF 0.53 PC 0.40 pJ ****** **** *** *** *: x *** * x **: O * *** Separation 8.0 mm * *** ********** ********** Plate Area 320 mm² Voltage 1.500 V Plate Charges Bar Graphs Electric Field Current Direction G
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