Calculate the range of values ​​K will take for the steady-state error to be ??? ≤ 0.04 when the input of the system is ?(?) = ?. Calculate the range of values ​​K will take for the damping ratio to be  1>ξ ≥(1/2√6).   Calculate the damping rate ξ and the undamped natural frequency ?? so that ? = 0.5

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  1. Calculate the range of values ​​K will take for the steady-state error to be ??? ≤ 0.04 when the input of the system is ?(?) = ?.
  2. Calculate the range of values ​​K will take for the damping ratio to be  1>ξ ≥(1/2√6).

 

  1. Calculate the damping rate ξ and the undamped natural frequency ?? so that ? = 0.5
2. Question The block diagram of the system is given below:
U(s)
E(s)
K
Y(s)
s(s +1)
a) Calculate the range of values K will take for the steady-state error to be ess< 0.04 when the input of the system is
u(t) = t.
1
1 >} >
{ .
b) Calculate the range of values K will take for the damping ratio to be
2/6.
c) Calculate the damping rate Ğ and the undamped natural frequency wn so that K = 0.5
Transcribed Image Text:2. Question The block diagram of the system is given below: U(s) E(s) K Y(s) s(s +1) a) Calculate the range of values K will take for the steady-state error to be ess< 0.04 when the input of the system is u(t) = t. 1 1 >} > { . b) Calculate the range of values K will take for the damping ratio to be 2/6. c) Calculate the damping rate Ğ and the undamped natural frequency wn so that K = 0.5
U(s)
E(s)
K
Y(s)
s(s +1)
Transcribed Image Text:U(s) E(s) K Y(s) s(s +1)
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