Consider the circuit shown in Fig. Q.4. The value of R= 3.6 N, L =12.68 mH, Vdc= 12V and the source voltage is given by the expression as below: vs (t) = 29 + 25 sin ( w1t) + 10 sin ( w2t) V Fig. Q. 4 Where, w1= 360 Tt, and w2= 480 r Determine: a. Average load current b. RMS value of the load current c. Power dissipated inside the inductor d. Power dissipated inside the resistor e. Power absorbed by the dc source Vs Vác Fig. Q. 4

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Consider the circuit shown in Fig. Q.4. The value of
R= 3.6 N, L =12.68 mH, Vdc= 12V and the source
voltage is given by the expression as below: vs (t) =
29 + 25 sin ( wit) + 10 sin ( w2t) V Fig. Q. 4 Where,
w1= 360 t, and w2= 480 t Determine: a. Average
load current b. RMS value of the load current c.
Power dissipated inside the inductor d. Power
dissipated inside the resistor e. Power absorbed by
the dc source
Vs
Vác
Fig. Q. 4
Transcribed Image Text:Consider the circuit shown in Fig. Q.4. The value of R= 3.6 N, L =12.68 mH, Vdc= 12V and the source voltage is given by the expression as below: vs (t) = 29 + 25 sin ( wit) + 10 sin ( w2t) V Fig. Q. 4 Where, w1= 360 t, and w2= 480 t Determine: a. Average load current b. RMS value of the load current c. Power dissipated inside the inductor d. Power dissipated inside the resistor e. Power absorbed by the dc source Vs Vác Fig. Q. 4
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