For the closed-loop control system shown, with $r(t)=0$, the steady-state error $e(\infty)$ due to a unit step disturbance $d(t)$ is ____________ (rounded off to two decimal places).

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Given block diagram: $$ Y(s) = \frac{10}{s(s+10)} E(s) + \frac{1}{s(s+10)}D(s), $$ and error is $$ E(s) = R(s) - Y(s). $$ With $R(s)=0$: $$ E(s) = -Y(s). $$ Thus closed-loop transfer from disturbance $D(s)$ to error $E(s)$ is: $$ E(s) = -\frac{1}{1 + 10/(s(s+10))}\cdot \frac{1}{s(s+10)}D(s). $$ Simplify denominator: $$ 1 + \frac{10}{s(s+10)} = \frac{s(s+10)+10}{s(s+10)} = \frac{s^2 + 10s + 10}{s(s+10)}. $$ Thus: $$ E(s) = -\frac{1}{s(s+10)} \cdot \frac{s(s+10)}{s^2 + 10s + 10} D(s) = -\frac{1}{s^2 + 10s + 10} D(s). $$ For a unit step disturbance: $$ D(s) = \frac{1}{s}. $$ Thus: $$ E(s) = -\frac{1}{s(s^2 + 10s + 10)}. $$ Steady-state error using final value theorem: $$ e(\infty) = \lim_{s\to 0} sE(s) = \lim_{s\to 0} \left( -\frac{1}{s^2 + 10s + 10} \right) = -\frac{1}{10}. $$ Thus: $$ e(\infty) = -0.10. $$ Acceptable range: –0.11 to –0.09 $$ \boxed{-0.10} $$

For the closed-loop control system shown, with $r(t)=0$, the steady-state error $e(\infty)$ due to a unit step disturbance $d(t)$ is ____________ (rounded off to two decimal places).

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Correct Answer: -0.11

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