is the transfer function of a 2nd order lowpass filter. If R=2500 Q, C=0.5 µF, L=1 H and input is x(t) = sin(2775t), find the 5² +53 +1 C H(s) = output y(t). O a. y(t)=0.94sin (2pi75.00t+(-33.53)) O b. y(t)=0.84sin (2pi75.00t + (-52.79)) O c. y(t)=0.77sin (2pi75.00t + (-64.74)) O d. y(t)=0.91sin (2pi75.00t + (-40.08)) O e. y(t)=0.96sin (2pi75.00t + (-26.90))
is the transfer function of a 2nd order lowpass filter. If R=2500 Q, C=0.5 µF, L=1 H and input is x(t) = sin(2775t), find the 5² +53 +1 C H(s) = output y(t). O a. y(t)=0.94sin (2pi75.00t+(-33.53)) O b. y(t)=0.84sin (2pi75.00t + (-52.79)) O c. y(t)=0.77sin (2pi75.00t + (-64.74)) O d. y(t)=0.91sin (2pi75.00t + (-40.08)) O e. y(t)=0.96sin (2pi75.00t + (-26.90))
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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Transcribed Image Text:H(s) =
5² +8+
output y(t).
is the transfer function of a 2nd order lowpass filter. If R=2500 Q, C=0.5 µF, L=1 H and input is x(t) = sin(2775t), find the
O a. y(t)=0.94sin (2pi75.00t + (-33.53))
O b. y(t)=0.84sin (2pi75.00t + (-52.79))
O c. y(t)=0.77sin (2pi75.00t + (-64.74))
O d. y(t)=0.91sin (2pi75.00t + (-40.08))
O e. y(t)=0.96sin (2pi75.00t+ (-26.90))
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