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For the circuit in Figure 6.2, derive the complex valued transfer functien. Vow/'1&amp;quot;. in terms {If R, L, and the angular frequency w. o me...

I can solve Part B, but I don't know how to solve part B

I can get Vout/Vin = 0.56<-56', but I need solution after that

B. For the circuit in Figure 6.2, derive the complex valued transfer functien. Vow/'1&quot;... in terms {If R,
L, and the angular frequency w. o me the transfer function. derive the real valued functinn for the phase response. Use the
variable mg for the cutoff frequency, which replaces the ratio RfL. 0 From the transfer ﬁnlctinn, derive the real valued function for the magnitude respense. Use
the variable w” for the cute-H frequency, which replaces the rat-in 3/13. L +
Fri”. e R V91“ Figure 5.2: Lab 36}. [1’ Law Pass Filter

D. Using the magnitude and phase response from 6713. determine values for R and L that satisfy the
follow conditions: Vm = 2010&quot; V Von. = 11.245 -56° V f = 4.8 kHz

B) magnitude: ﻿ ​ √ ​ R ​ 2 ​ ​ + ω ​ 2 ​ ​  ... View the full answer

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