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Practice Problem 14.7 A series-connected circuit has R = 4 N and L = 25 mH. (a) Calculate the value of C that will produce a quality factor of 50. (b) Find w, w. and B. (c) Determine the average power dissipated at w = Wo, W, W. Take V = 100 V. Answer: (a) 0.625 µF, (b) 7920 rad/s, 8080 rad/s, 160 rad/s, (c) 1.25 kW, 0.625 kW, 0.625 kW.

Practice Problem 14.7 A series-connected circuit has R = 4 N and L = 25 mH. (a) Calculate the value of C that will produce a quality factor of 50. (b) Find w, w. and B. (c) Determine the average power dissipated at w = Wo, W, W. Take V = 100 V. Answer: (a) 0.625 µF, (b) 7920 rad/s, 8080 rad/s, 160 rad/s, (c) 1.25 kW, 0.625 kW, 0.625 kW.

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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Practice Problem 14.7 A series-connected circuit has R = 4 N and L = 25 mH. (a) Calculate the value of C that will produce a quality factor of 50. (b) Find w, a. and B. (c) Determine the average power dissipated at w = W, W, wz. Take V = 100 V. Answer: (a) 0.625 uF, (b) 7920 rad/s, 8080 rad/s, 160 rad/s, (c) 1.25 kW, 0.625 kW, 0.625 kW.
Transcribed Image Text:Practice Problem 14.7 A series-connected circuit has R = 4 N and L = 25 mH. (a) Calculate the value of C that will produce a quality factor of 50. (b) Find w, a. and B. (c) Determine the average power dissipated at w = W, W, wz. Take V = 100 V. Answer: (a) 0.625 uF, (b) 7920 rad/s, 8080 rad/s, 160 rad/s, (c) 1.25 kW, 0.625 kW, 0.625 kW.
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