(Solved): Can you please explain how you would arrive at the y= u-z aspect
of the question.
5. ...
Can you please explain how you would arrive at the y= u-z aspect
of the question.
5. (8%) Consider the following differential equation for z(t) with input u(t). Assuming the output of interest is y = u-z, which set of matrices are valid for the state variable equations? X = AX + Bu y = CX + Du 102 +50? + 60z = 50? + 60u (a) C = (-10) D = [1] 19 B= C = [65] D = [0] B= 5 19 ] D=(-1] A=[% +3] B=(-1, (b) A= =C6 -51 = ) (0) A=(% ) =[-1.) c= [1 0] (d) A=151 = (e) A=1-% -501 L =A A = L-% -50] B=(-1, [ B = C =[-1 0] D = [1] A 0 60 BE C = [60 50] D = [0] 0 A= = C=(-1 0] D = [1