Q. For the system of the given figure the transfer function E₀(s)/Ei(s) =

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Q. In the given figure shows pole-zero plot. If steady state gain is 2 the transfer function G(s) is

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Q. For the system of the given figure, the damping ratio of closed loop poles is

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Q. For a first order system having transfer function 1/(1+sT) , the unit impulse response is

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Q. For the given figure C(s)/R(s)

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Q. In the given figure, the input frequency is such that R = XC. Then

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Q. For the given figure C(s)/R(s)

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Q. For the circuit in the given figure, V₀/Vi =

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Q. In the given figure the input frequency is such that R << Xc, then

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Q. In the given figure, of potentiometer V0 = Vi (R0/Ri) only when

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Q. A unity feedback system has open loop transfer function (2s+1)/s² . The closed loop transfer function is

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Q. Consider the systems with following open loop transfer functions. If unity feedback is used, the increasing order of time taken for unit step response to settle is

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Q. The compensator of the given figure is a

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Q. If error voltage is e(t), integral square error =

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Q. In the given figure the input is x(t) = A sin ωt. The steady state output y(t) =

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Q. In the given figure x6 =

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Q. For the given figure, C(s)/R(s) =

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Q. For the control system in the given figure, the value of K for critical damping is

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Q. For the system in the given figure, C(s)/R(s) =

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Q. In the given figure, if R = XC, voltage gain is

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