L max the frequency (in hertz) of the resulting ocillations. 77 HZ = 1.00 ms, find the charge on the capacitor. ember that your answer to part (a) is in hertz rather than radians/second. µC = 1.00 ms, find the current in the circuit. |x u know the charge on the capacitor as a function of time, how do you determine the current? mA 000

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An LC circuit like the one in the figure below contains an 95.0 mH inductor and a 11.0 µF capacitor that initially carries a 170 µC charge. The switch is open for t < 0 and is then thrown closed at t = 0.
C
L
Qmax
S
(a) Find the frequency (in hertz) of the resulting oscillations.
155.77
Hz
(b) At t = 1.00 ms,
find the charge on the capacitor.
169.9
Remember that your answer to part (a) is in hertz rather than radians/second. µC
(c)
At t = 1.00 ms, find the current in the circuit.
1.57
If you know the charge on the capacitor as a function of time, how do you determine the current? mA
(d) What If? What are the first three times (in ms), after t = 0, when the capacitor is fully charged again?
smallest value
4.31
X ms
8.64
X ms
largest value
12.9
ms
ele
Transcribed Image Text:An LC circuit like the one in the figure below contains an 95.0 mH inductor and a 11.0 µF capacitor that initially carries a 170 µC charge. The switch is open for t < 0 and is then thrown closed at t = 0. C L Qmax S (a) Find the frequency (in hertz) of the resulting oscillations. 155.77 Hz (b) At t = 1.00 ms, find the charge on the capacitor. 169.9 Remember that your answer to part (a) is in hertz rather than radians/second. µC (c) At t = 1.00 ms, find the current in the circuit. 1.57 If you know the charge on the capacitor as a function of time, how do you determine the current? mA (d) What If? What are the first three times (in ms), after t = 0, when the capacitor is fully charged again? smallest value 4.31 X ms 8.64 X ms largest value 12.9 ms ele
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