a) Let f(t) represents the output of an industrial system in time domain, and F(s) be its Laplace transform. Find the Laplace Transform F(s). i) f(t) = Acos(2t) - Be-7t + Cu(t), t≥ 0 ii) Where A=30, B=-2, C=-3, D=3 f(t)=-7 t² u(t-D)

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a)
Let f(t) represents the output of
an industrial system in time domain, and
F(s) be its Laplace transform. Find the
Laplace Transform F(s).
i)
f(t) = Acos(2t) — Be−7t + Cu(t),
ii)
Where A-30, B=-2, C=-3, D=3
f(t)=-7 t² u(t-D)
R(s)
b)
A manufacturing process is
represented by the following block diagram:
H₂(s)
G₁(s)
H₂(s)
t≥ 0
H₂ (s)
G₂(s)
Y(s)
i)
Do you need to apply
Rule 1 and Rule 2 in the Lecture Notes to
solve this question? Why / Why not?
ii)
Simplify the block
diagram to its most simplified form and find
(Y(s))/(R(s)). Show each step in your
solution.
Where G₁(s) = 6s, G₂(s) = 4, K = 9, H₁(s) = 3,
H₂(s) = 7 and H3(s) = 7s
Transcribed Image Text:a) Let f(t) represents the output of an industrial system in time domain, and F(s) be its Laplace transform. Find the Laplace Transform F(s). i) f(t) = Acos(2t) — Be−7t + Cu(t), ii) Where A-30, B=-2, C=-3, D=3 f(t)=-7 t² u(t-D) R(s) b) A manufacturing process is represented by the following block diagram: H₂(s) G₁(s) H₂(s) t≥ 0 H₂ (s) G₂(s) Y(s) i) Do you need to apply Rule 1 and Rule 2 in the Lecture Notes to solve this question? Why / Why not? ii) Simplify the block diagram to its most simplified form and find (Y(s))/(R(s)). Show each step in your solution. Where G₁(s) = 6s, G₂(s) = 4, K = 9, H₁(s) = 3, H₂(s) = 7 and H3(s) = 7s
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