Consider the RLC series circuit shown with ve(t) = 10cos(wt) V, R = 15N, L = 3mH and C = 7µF. Determine the resonant frequency by wr = (L. C) 1/2 Compute the complex power received by each circuit component (the subscripts "R", "L", "C" and "S" respectively refer to the resistor, inductor, capacitor, and source) under the following source frequencies: v,(t) + R v,(1) Vz() a. w = 0.1wr SR = VA SL = VA Sc = VA Ss = VA b. w = Wr SR = VA SL = VA Sc = VA Ss = VA C. w = 10w, SR = VA SL = VA Sc = VA Ss = VA
Consider the RLC series circuit shown with ve(t) = 10cos(wt) V, R = 15N, L = 3mH and C = 7µF. Determine the resonant frequency by wr = (L. C) 1/2 Compute the complex power received by each circuit component (the subscripts "R", "L", "C" and "S" respectively refer to the resistor, inductor, capacitor, and source) under the following source frequencies: v,(t) + R v,(1) Vz() a. w = 0.1wr SR = VA SL = VA Sc = VA Ss = VA b. w = Wr SR = VA SL = VA Sc = VA Ss = VA C. w = 10w, SR = VA SL = VA Sc = VA Ss = VA
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:Consider the RLC series circuit shown with ve(t) = 10cos(wt)V, R = 15N, L = 3mH and C = 7µF. Determine the resonant frequency by wr = (L. C) 1/2 Compute the complex power received by
each circuit component (the subscripts "R", "L", "C and "S" respectively refer to the resistor, inductor, capacitor, and source) under the following source frequencies:
v,(t)
+
R
v,()
L
Vz(1)
C
a. w = 0.1wr
SR =
VA
SL =
VA
Sc =
VA
Ss =
VA
b. w = Wr
SR =
VA
SL =
VA
Sc =
VA
Ss =
VA
C. w = 10w,
SR =
VA
SL =
VA
Sc =
VA
Ss =
VA
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