The LC circuit shown below has a total energy of 32 J. Determine the initial charge on the capacitor, maximum current, the frequency, & the period. C = 815 µF HH roo L = 194 mH Q = Imax = f = T= Part 2: Finding I An LC circuit has a maximum current of 4 A. Determine the current in the circuit when the capacitor's potential energy is twelve times the inductor's potential energy. 1 =

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The LC circuit shown below has a total energy of 32 J. Determine the initial charge on the capacitor, maximum current, the frequency, & the period.
C = 815 µF
000
L = 194 mH
Q =
Imax
f =
T =
Part 2: Finding I
An LC circuit has a maximum current of 4 A. Determine the current in the circuit when the capacitor's potential energy is twelve times the inductor's potential energy.
Transcribed Image Text:The LC circuit shown below has a total energy of 32 J. Determine the initial charge on the capacitor, maximum current, the frequency, & the period. C = 815 µF 000 L = 194 mH Q = Imax f = T = Part 2: Finding I An LC circuit has a maximum current of 4 A. Determine the current in the circuit when the capacitor's potential energy is twelve times the inductor's potential energy.
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