9.11 Use the following transfer functions to find the steady-state response y(t) to the given input function f(t). a. b. T(s) = Y(s) F(s) T(s) = = Y(s) F(s) 5 (5s + 1)(2s +1) f(1) = 10 sin 0.21 = 1 s² + 10s + 100' f(t) = 16 sin 51
9.11 Use the following transfer functions to find the steady-state response y(t) to the given input function f(t). a. b. T(s) = Y(s) F(s) T(s) = = Y(s) F(s) 5 (5s + 1)(2s +1) f(1) = 10 sin 0.21 = 1 s² + 10s + 100' f(t) = 16 sin 51
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
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Publisher:Robert L. Boylestad
Chapter1: Introduction
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STEADY STATE RESPONSE( NEED NEAT HANDWRITTEN SOLUTION ONLY OTHERWISE DOWNVOTE).
Transcribed Image Text:9.11 Use the following transfer functions to find the steady-state response ys(1) to the
given input function f(t).
a.
b.
T(s) =
Y(s)
F(s)
T(s) =
Y(s)
F(s)
5
(5s + 1)(2s + 1)' f(t) = 10 sin 0.21
=
1
s² + 10s + 100'
f(t) = 16 sin 5t
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VIEWStep 3: Calculating partial fraction coefficients A, B, C and D
VIEWStep 4: Calculating the steady state response for the sub part (a)
VIEWStep 5: Calculating the steady state response for the sub part (b)
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