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Capacitance Top Plate Charge Stored Energy 1.5V- OV -15V 0.35 pF 0.53 pc 0.40 pJ Separation 10.0 mm Plate Area 400 mm² Voltage 1.500 V Plate Charges Bar Graphs Electric Field Current Direction

Capacitance Top Plate Charge Stored Energy 1.5V- OV -15V 0.35 pF 0.53 pc 0.40 pJ Separation 10.0 mm Plate Area 400 mm² Voltage 1.500 V Plate Charges Bar Graphs Electric Field Current Direction

Principles of Physics: A Calculus-Based Text
Principles of Physics: A Calculus-Based Text
5th Edition
ISBN:9781133104261
Author:Raymond A. Serway, John W. Jewett
Publisher:Raymond A. Serway, John W. Jewett
Chapter27: Wave Optics
Section: Chapter Questions
Problem 39P
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Based on this image find the capacitance using the equation C= Q/V then use a different equation to find the capacitance and see if your answers match based on using two different equations. 

Capacitance Top Plate Charge Stored Energy 1.5V- OV -1.5V Capacitor Lab: Basics 0.35 pF 0.53 pc 0.40 pJ Separation 10.0 mm Plate Area 400 mm² Voltage 1.500 V Capacitance Light Bulb ✔Plate Charges ✔Bar Graphs Electric Field Current Direction PHET:
Transcribed Image Text:Capacitance Top Plate Charge Stored Energy 1.5V- OV -1.5V Capacitor Lab: Basics 0.35 pF 0.53 pc 0.40 pJ Separation 10.0 mm Plate Area 400 mm² Voltage 1.500 V Capacitance Light Bulb ✔Plate Charges ✔Bar Graphs Electric Field Current Direction PHET:
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for C=Q/V why did you use the stored energy number (0.40pJ) for Q if Q is in coulombs so wouldnt you use the value for the top plate charge which is (0.53pC) instead. Also how did you convert your units because if Area is in 400mm2 and the SI unit for that is m2 wouldnt it be 0.4m2?

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