SECTIONS 20.2 THROUGH 20.7 Series Resonance 1. Find the resonant w, and f, for the series circuit with the following parameters: a. R = 10 , L = 1 H, C = 16 µF b. R = 300 0, L = 0.5 H, C = 0.16 μF c. R= 20 , L = 0.28 mH, C = 7.46 μF

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SECTIONS 20.2 THROUGH 20.7 Series Resonance
1. Find the resonant w, and f, for the series circuit with the
following parameters:
a. R = 10 , L = 1 H, C = 16 µF
b. R = 300
2, L = 0.5 H, C = 0.16 μF
c. R= 20 , L = 0.28 mH, C = 7.46 μF
2. For the series circuit of Fig. 20.49:
a. Find the value of Xc for resonance.
b. Determine the total impedance of the circuit at reso-
nance.
c. Find the magnitude of the current I.
d. Calculate the voltages VR, VL, and Vc at resonance.
How are V, and Ve related? How does VR compare to
the applied voltage E?
e. What is the quality factor of the circuit? Is it a high-
or low-Q circuit?
f.
What is the power dissipated by the circuit at reso-
nance?
+
E(50 mV
+ VR
www
R = 100
+ V₁
000
XL = 30 f
FIG. 20.49
Problem 2.
Xc
Vo
Transcribed Image Text:SECTIONS 20.2 THROUGH 20.7 Series Resonance 1. Find the resonant w, and f, for the series circuit with the following parameters: a. R = 10 , L = 1 H, C = 16 µF b. R = 300 2, L = 0.5 H, C = 0.16 μF c. R= 20 , L = 0.28 mH, C = 7.46 μF 2. For the series circuit of Fig. 20.49: a. Find the value of Xc for resonance. b. Determine the total impedance of the circuit at reso- nance. c. Find the magnitude of the current I. d. Calculate the voltages VR, VL, and Vc at resonance. How are V, and Ve related? How does VR compare to the applied voltage E? e. What is the quality factor of the circuit? Is it a high- or low-Q circuit? f. What is the power dissipated by the circuit at reso- nance? + E(50 mV + VR www R = 100 + V₁ 000 XL = 30 f FIG. 20.49 Problem 2. Xc Vo
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