Problem 1. Consider the following two state-space systems. ž(0) = 2 i(t) 피(t) + I(t) + u(t) y(t) = [0 1] x(t) y(t) = [1 1]7(t). %3D (a) Determine if each system is controllable. Determine whether each eigen- value of the A matrices is controllable or uncontrollable.
Problem 1. Consider the following two state-space systems. ž(0) = 2 i(t) 피(t) + I(t) + u(t) y(t) = [0 1] x(t) y(t) = [1 1]7(t). %3D (a) Determine if each system is controllable. Determine whether each eigen- value of the A matrices is controllable or uncontrollable.
Introductory Circuit Analysis (13th Edition)
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![Problem 1.
Consider the following two state-space systems.
ż(1) =
i(t
r(t) +
u(t)
피(1) +
u(t)
-2
y(t) = [0 1] #(t)
-2 -3
y(t) = [1 1] 7(t).
(a)
Determine if each system is controllable. Determine whether each eigen-
value of the A matrices is controllable or uncontrollable.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F57ce60b2-40c7-4038-bf1a-7d9ea160e6bf%2F2f21b692-7964-4acf-bc41-bab512767523%2Frnmscen_processed.png&w=3840&q=75)
Transcribed Image Text:Problem 1.
Consider the following two state-space systems.
ż(1) =
i(t
r(t) +
u(t)
피(1) +
u(t)
-2
y(t) = [0 1] #(t)
-2 -3
y(t) = [1 1] 7(t).
(a)
Determine if each system is controllable. Determine whether each eigen-
value of the A matrices is controllable or uncontrollable.
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