DDD ✔Capacitance Top Plate Charge Stored Energy 1.5 V- OV -1.5 V Capacitor Lab: Basics 0.35 pF 0.53 PC 0.40 pJ **** ***** O Separation 10.0 mm Plate Area 400 mm² Voltage 1.500 V Capacitance Light Bulb ✔Plate Charges ✔Bar Graphs ✔Electric Field ✔ Current Direction PHET:
DDD ✔Capacitance Top Plate Charge Stored Energy 1.5 V- OV -1.5 V Capacitor Lab: Basics 0.35 pF 0.53 PC 0.40 pJ **** ***** O Separation 10.0 mm Plate Area 400 mm² Voltage 1.500 V Capacitance Light Bulb ✔Plate Charges ✔Bar Graphs ✔Electric Field ✔ Current Direction PHET:
College Physics
1st Edition
ISBN:9781938168000
Author:Paul Peter Urone, Roger Hinrichs
Publisher:Paul Peter Urone, Roger Hinrichs
Chapter20: Electric Current, Resistance, And Ohm's Law
Section: Chapter Questions
Problem 10PE: A clock battery wears out after moving 10,000 C of charge through the clock at a rate of 0.500 mA....
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Find the energy density of the capacitor using two differerent methods
Transcribed Image Text:Capacitance
Top Plate Charge
Stored Energy
1.5 V --
OV
-1.5 V
Capacitor Lab: Basics
0.35 pF
0.53 pC
0.40 pJ
***
**********
xxxx
**********
O
xxx
***
O
****
Separation
10.0 mm
*****
*****:
×××××××
Capacitance
Plate Area
400 mm²
Voltage
1.500 V
Light Bulb
Plate Charges
Bar Graphs
Electric Field
Current Direction
G
PRET:
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Follow-up Question
Using the equation U=E/V you got 1*10-7J/m3 as your energy density answer. Can you verify this answer by plugging it into a different equation using different variables given that the
Capacitance: 0.37pF
Top plate charge: 0.16pC
stored energy: 0.43pJ
Voltage 1.500V
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can you provide two different formulas that you used in the answer above and how you plugged it in
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