10-1. The following differential equations represent linear time-invariant systems. Write the dynamic equations (state equations and output equations) in vector-matrix form. (c) di² d³y(1) +5 d²y(t) + 3 dy(1) +y(1) + dt ² +y(t) + √″ y(x) y(t)dt = r(x)
10-1. The following differential equations represent linear time-invariant systems. Write the dynamic equations (state equations and output equations) in vector-matrix form. (c) di² d³y(1) +5 d²y(t) + 3 dy(1) +y(1) + dt ² +y(t) + √″ y(x) y(t)dt = r(x)
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Transcribed Image Text:10-1. The following differential equations represent linear time-invariant systems. Write the
dynamic equations (state equations and output equations) in vector-matrix form.
(c)
di²
d³y(1) +5 d²y(t) + 3 dy(1) +y(1) +
dt
² +y(t) + √″ y(x)
y(t)dt = r(x)
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