A) Assuming that no inputs are present to a first-order and a second-order systems, mention two fundamental differences between the two systems. B) Determine the damping ratio and natural frequency of the single-loop RLC electrical circuit system shown below. L d²1 dI I +R=+ = E(t). dt² dt C C) State two distinctions between odd and even functions, and name and sketch a function that's neither odd nor even.

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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A) Assuming that no inputs are present to a first-order and a second-order systems, mention two fundamental
differences between the two systems.
B) Determine the damping ratio and natural frequency of the single-loop RLC electrical circuit system shown below.
d²1 dI I
+ R + =
dt² dt с
L
E(t).
C) State two distinctions between odd and even functions, and name and sketch a function that's neither odd nor even.
D) What is the frequency in Hertz and the amplitude of the 5th term (i.e. the 4th harmonics) of the following signal?
4 2π
10π
== - sin
TT
4
бп
y(t)
(² t) + 37 sin (17)
4
+ sin
5π
(10+)
+.
10
10
Transcribed Image Text:A) Assuming that no inputs are present to a first-order and a second-order systems, mention two fundamental differences between the two systems. B) Determine the damping ratio and natural frequency of the single-loop RLC electrical circuit system shown below. d²1 dI I + R + = dt² dt с L E(t). C) State two distinctions between odd and even functions, and name and sketch a function that's neither odd nor even. D) What is the frequency in Hertz and the amplitude of the 5th term (i.e. the 4th harmonics) of the following signal? 4 2π 10π == - sin TT 4 бп y(t) (² t) + 37 sin (17) 4 + sin 5π (10+) +. 10 10
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