Consider the system in the figure. The input is the function f(t) and the output is 2x+3 dx/dt K M At) fy The matrices of the state space are B= c-[1 o] D=[0] a. A= fr K B= 1 C=[1 0] D=[0] M. b. A= fr K M c. A= C=[2 3] D=[0] K fo B = M d. A= fr EM c-[2 3] D=[0] B = M.

Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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moodle1.du.edu.om/mo
Consider the system in
the figure. The input is
the function f(t) and the
output is 2x+3 dx/dt
x(t)
K
M
> f(t)
The matrices of the state
space are
B= c=1 0] D=0]
a. A=
fr
K
M
M
0.
b. A=
B= 1
C=[1 0] D=[0]
fi
K
M
B = 1 C=[2 3] D=[0]
M
c. A= K
fv
M.
B-c-12 3] D=[]
d. A=
fr
M
K
Select one:
а. с
Transcribed Image Text:moodle1.du.edu.om/mo Consider the system in the figure. The input is the function f(t) and the output is 2x+3 dx/dt x(t) K M > f(t) The matrices of the state space are B= c=1 0] D=0] a. A= fr K M M 0. b. A= B= 1 C=[1 0] D=[0] fi K M B = 1 C=[2 3] D=[0] M c. A= K fv M. B-c-12 3] D=[] d. A= fr M K Select one: а. с
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