K(s+1) s(5-3) The transfer function G(s) for this system. a) Write the magnitude and phase expressions of the system. b) Create a table showing magnitude and phase values for wo[a] = (0, 0.2, 0.7, 1.73, 2.5, 9 K-15 is given. You will draw the Nyquist diagram 10, ∞0} c) Draw the Nyquist diagram. d) Using the Nyquist stability criterion, determine whether the system G(s) with K-15 is stable or not. Find the positive K values (stability range) that make the system stable, using the Nyquist diagram.

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The transfer function G(s):
for this system.
a) Write the magnitude and phase expressions of the system.
3
b) Create a table showing magnitude and phase values for [rd] =(0, 0.2, 0.7, 1.73, 2.5,
10, ∞ }
K(s+1)
s(s-3)
.
K-15 is given. You will draw the Nyquist diagram
c) Draw the Nyquist diagram.
d) Using the Nyquist stability criterion, determine whether the system G(s) with K-15 is stable
or not.
e) Find the positive K values (stability range) that make the system stable, using the Nyquist
diagram.
Transcribed Image Text:The transfer function G(s): for this system. a) Write the magnitude and phase expressions of the system. 3 b) Create a table showing magnitude and phase values for [rd] =(0, 0.2, 0.7, 1.73, 2.5, 10, ∞ } K(s+1) s(s-3) . K-15 is given. You will draw the Nyquist diagram c) Draw the Nyquist diagram. d) Using the Nyquist stability criterion, determine whether the system G(s) with K-15 is stable or not. e) Find the positive K values (stability range) that make the system stable, using the Nyquist diagram.
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