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|
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
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
Related questions
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
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|
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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