In the series, driven RLC circuit below in which R=4.00 92, L = 2.00 mH, C = 8.00 mF, Erms 12.0 V, and the circuit is driven at its resonance frequency, the average power dissipated by the resistor will be... www L mms A. 36.0 W B. 3.00 W C. 4.00 W D. 288 W E. 144W с E = Em cos(at)
In the series, driven RLC circuit below in which R=4.00 92, L = 2.00 mH, C = 8.00 mF, Erms 12.0 V, and the circuit is driven at its resonance frequency, the average power dissipated by the resistor will be... www L mms A. 36.0 W B. 3.00 W C. 4.00 W D. 288 W E. 144W с E = Em cos(at)
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![24. In the series, driven RLC circuit below in which R = 4.00 , L = 2.00 mH, C = 8.00 mF, Erms
12.0 V, and the circuit is driven at its resonance frequency, the average power dissipated by the
resistor will be...
ww
L
mm
A. 36.0 W
B. 3.00 W
C. 4.00 W
D. 288 W
E. 144W
C
E = Em cos(at)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F992aad46-52ce-4cc8-9525-3e2f0973abbc%2F5729ba5a-d82b-45a3-b17d-2c0143df5929%2Fu1e1ap_processed.png&w=3840&q=75)
Transcribed Image Text:24. In the series, driven RLC circuit below in which R = 4.00 , L = 2.00 mH, C = 8.00 mF, Erms
12.0 V, and the circuit is driven at its resonance frequency, the average power dissipated by the
resistor will be...
ww
L
mm
A. 36.0 W
B. 3.00 W
C. 4.00 W
D. 288 W
E. 144W
C
E = Em cos(at)
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