Solution Found!
For the circuit of Fig. 30.17, let C = 15.0 nF, L = 22 mH,
Chapter 30, Problem 40E(choose chapter or problem)
For the circuit of Fig. 30.17, let \(C=15.0 n F, L=22 \mathrm{mH}\), and \(R=75.0 \Omega\) (a) Calculate the oscillation frequency of the circuit once the capacitor has been charged and the switch has been connected to point . (b) How long will it take for the amplitude of the oscillation to decay to of its original value? (c) What value of would result in a critically damped circuit?
Equation transcription:
Text transcription:
C=15.0 n F, L=22{mH}
R=75.0 Omega
Questions & Answers
QUESTION:
For the circuit of Fig. 30.17, let \(C=15.0 n F, L=22 \mathrm{mH}\), and \(R=75.0 \Omega\) (a) Calculate the oscillation frequency of the circuit once the capacitor has been charged and the switch has been connected to point . (b) How long will it take for the amplitude of the oscillation to decay to of its original value? (c) What value of would result in a critically damped circuit?
Equation transcription:
Text transcription:
C=15.0 n F, L=22{mH}
R=75.0 Omega
ANSWER: