8 A voltage v(t) = 100 sinot is applied to a series RLC circuit. At the resonant frequency of the circuit, the maximum voltage across the capacitor is found to be 400 V. The bandwidth is known to be 600 rad/sec and impedance at resonance is 100 Q. Find the resonant frequency and compute the upper and lower limits of the bandwidth. Determine the values of L and C of the [2073 Shrawan] circuit.
8 A voltage v(t) = 100 sinot is applied to a series RLC circuit. At the resonant frequency of the circuit, the maximum voltage across the capacitor is found to be 400 V. The bandwidth is known to be 600 rad/sec and impedance at resonance is 100 Q. Find the resonant frequency and compute the upper and lower limits of the bandwidth. Determine the values of L and C of the [2073 Shrawan] circuit.
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Author:Robert L. Boylestad
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![8
A voltage v(t) = 100 sinot is applied to a series RLC circuit. At
the resonant frequency of the circuit, the maximum voltage
across the capacitor is found to be 400 V. The bandwidth is
Ans:
382 Hz,
477.5,368.
91,0.16H,
1.04µF
known to be 600 rad/sec and impedance at resonance is 100 Q.
Find the resonant frequency and compute the upper and lower
limits of the bandwidth. Determine the values of L and C of the
[2073 Shrawan]
circuit.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F5011e7db-f6bb-43e8-8436-82bd95360645%2F48232f7e-0b40-43fc-99c0-cfbc7b344e70%2F12kyhan_processed.png&w=3840&q=75)
Transcribed Image Text:8
A voltage v(t) = 100 sinot is applied to a series RLC circuit. At
the resonant frequency of the circuit, the maximum voltage
across the capacitor is found to be 400 V. The bandwidth is
Ans:
382 Hz,
477.5,368.
91,0.16H,
1.04µF
known to be 600 rad/sec and impedance at resonance is 100 Q.
Find the resonant frequency and compute the upper and lower
limits of the bandwidth. Determine the values of L and C of the
[2073 Shrawan]
circuit.
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