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.
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.
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ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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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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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.
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
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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