2.2-3 A real LTIC system with input x() and output y() is described by the following constant-coefficient linear differential equation: (D³ +9D) [y(t)} = (2D³ + 1)(x(t)). (a) What is the characteristic equation of this system? (b) What are the characteristic modes of this system? (c) Assuming yair (0) = 4, yzir (0) = -18, Yzir and ÿzir (0) = 0, determine this system's zero-input response yir(t). Simplify yzir (1) to include only real terms (i.e., no j's should appear in your answer).

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2.2-3 A real LTIC system with input x() and
output y(t) is described by the following
constant-coefficient linear differential equation:
(D³ +9D) [y(t)} = (2D³ + 1)(x(t)}.
(a) What is the characteristic equation of this
system?
(b) What are the characteristic modes of this
system?
(c) Assuming Yzir (0) = 4, yzir (0) = -18,
and ÿzir (0) = 0, determine this system's
zero-input response yzir (1). Simplify yzir (1)
to include only real terms (i.e., no j's should
appear in your answer).
Transcribed Image Text:2.2-3 A real LTIC system with input x() and output y(t) is described by the following constant-coefficient linear differential equation: (D³ +9D) [y(t)} = (2D³ + 1)(x(t)}. (a) What is the characteristic equation of this system? (b) What are the characteristic modes of this system? (c) Assuming Yzir (0) = 4, yzir (0) = -18, and ÿzir (0) = 0, determine this system's zero-input response yzir (1). Simplify yzir (1) to include only real terms (i.e., no j's should appear in your answer).
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