1. (cont.) b. Parallel RLC circuit with C= 25 µF, mL = 80 rad/s, y=120 rad/s. Problem statement continued on next page. 105 10 103 102 10! 100 100 10! 102 w (rad/s) 103 10 (U) |(m)Z| 1. (cont.) Series RLC circuit with C= 25 µF, R= 16 Q, B = 50 rad/s. c. 105 104 10 102 10' 10. 100 10' 102 w (rad/s) 103 104 (U) (m)Z|

Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Question

For each of the driven RLC circuits specified below, do the following:
i. Determine resonance properties ω0 , ωL, ωH, B, and Q (ωL and ωH are the low and high half-power frequencies).
ii. Determine element values.
iii. Produce a frequency response
plot for the impedance magnitude

1.
(cont.)
b.
Parallel RLC circuit with C= 25 µF, mL = 80 rad/s, y=120 rad/s.
Problem statement continued on next page.
105
10
103
102
10!
100
100
10!
102
w (rad/s)
103
10
(U) |(m)Z|
Transcribed Image Text:1. (cont.) b. Parallel RLC circuit with C= 25 µF, mL = 80 rad/s, y=120 rad/s. Problem statement continued on next page. 105 10 103 102 10! 100 100 10! 102 w (rad/s) 103 10 (U) |(m)Z|
1.
(cont.)
Series RLC circuit with C= 25 µF, R= 16 Q, B = 50 rad/s.
c.
105
104
10
102
10'
10.
100
10'
102
w (rad/s)
103
104
(U) (m)Z|
Transcribed Image Text:1. (cont.) Series RLC circuit with C= 25 µF, R= 16 Q, B = 50 rad/s. c. 105 104 10 102 10' 10. 100 10' 102 w (rad/s) 103 104 (U) (m)Z|
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