An LRC circuit is shown with an alternating source with a current given by i(t) = Icos(ot), with I=16.5 A and f= 124 Hz. If R = 80 2, C= 25 µF, and L= 100 mH are being used, determine: a) The maximum electric potential across R, C, and L. b) How many radians the voltages are ahead of the current in R, C, and L? c) The equations of the alternating electric potential of source as a function of time, v(t), across R, C, and L. The average electric power being used in the circuit (across the source). d) e) Draw the phase diagram for this circuit and use it to calculate overall phase op and impedance Z. f) The maximum potential across the source. g) The equation of the alternating potential across the source. R ww i(t) son

An LRC circuit is shown with an alternating source with a current given by i(t) = Icos(ot), with I=16.5 A and f= 124 Hz. If R = 80 2, C= 25 µF, and L= 100 mH are being used, determine: a) The maximum electric potential across R, C, and L. b) How many radians the voltages are ahead of the current in R, C, and L? c) The equations of the alternating electric potential of source as a function of time, v(t), across R, C, and L. The average electric power being used in the circuit (across the source). d) e) Draw the phase diagram for this circuit and use it to calculate overall phase op and impedance Z. f) The maximum potential across the source. g) The equation of the alternating potential across the source. R ww i(t) son

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter21: Resistive-capacitive Series Circuits

Section: Chapter Questions

Problem 6RQ: A 15-F AC capacitor is connected in series with a 50 resistor. The capacitor has a voltage rating...

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