This is an LTI Second Order Subject: Passive Low Pass Filter. Please show the step by step solution for each problem asked. If you managed to do this then I will give you an upvote for your answer and failing to do this will give you an downvote. 1.) Solve for the Voltage Out of given circuit below using circuit analysis. The given values are already displayed. The answer should be around 330mv. Show your solution step by step. 2.) Solve for the Voltage Out again but now with using the transfer function I have obtained below. If you used magnitude below please explain why did you use magnitude and square root please explain the concept behind that. note: Please don't use the solution in bartleby because I found them wrong. Especially the one who used degrees on it.
This is an LTI Second Order Subject: Passive Low Pass Filter. Please show the step by step solution for each problem asked. If you managed to do this then I will give you an upvote for your answer and failing to do this will give you an downvote. 1.) Solve for the Voltage Out of given circuit below using circuit analysis. The given values are already displayed. The answer should be around 330mv. Show your solution step by step. 2.) Solve for the Voltage Out again but now with using the transfer function I have obtained below. If you used magnitude below please explain why did you use magnitude and square root please explain the concept behind that. note: Please don't use the solution in bartleby because I found them wrong. Especially the one who used degrees on it.
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...
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This is an LTI Second Order Subject: Passive Low Pass Filter. Please show the step by step solution for each problem asked. If you managed to do this then I will give you an upvote for your answer and failing to do this will give you an downvote.
1.) Solve for the Voltage Out of given circuit below using circuit analysis. The given values are already displayed. The answer should be around 330mv. Show your solution step by step.
2.) Solve for the Voltage Out again but now with using the transfer function I have obtained below. If you used magnitude below please explain why did you use magnitude and square root please explain the concept behind that.
note: Please don't use the solution in bartleby because I found them wrong. Especially the one who used degrees on it.
Transcribed Image Text:voltageOut
R1
v 330.46mV
1
4
voltageln
802
80Ω
1V
C1
1kHz
|0 2µF
O 2µF
0 0°
Vout (s)
Vin(s)
39,062,500
G(s) =
s2+18,750s+39,062,500
Transcribed Image Text:Vout (s)
1
Vin(s)
S2R1CR2C2+s(R,C,+R¡C2+R2C2)+1
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