GATE ECE 2007 | Continuous Time Linear Invariant System Question 23 | Signals and Systems

Let g(t) = p(t) * p(t), where * denotes convolution and p(t) = u(t) - (t-1) with u(t) being the unit step function. The impulse response of filter matched to the singal s(t) = g(t) - $$[\delta (t - 2)*g(t)]$$ is given as

s(1 - t)

-s (1 - t)

-s(t)

s(t)

GATE ECE 2005

MCQ (Single Correct Answer)

-0.6

The output y(t) of a linear time invariant system is related to its input x(t) by the following equation: y(t) = 0.5 x $$(t - {t_d} + T) + \,x\,(t - {t_d}) + 0.5\,x(t - {t_d} - T)$$. The filter transfer function $$H(\omega )$$ of such a system is given by

$$(1 + \cos \omega T){e^{ - j\omega {t_d}}}$$

$$(1 + 0.5\cos \omega T){e^{ - j\omega {t_d}}}$$

$$(1 + \cos \omega T){e^{j\omega {t_d}}}$$

$$(1 - 0.5\cos \omega T){e^{ - j\omega {t_d}}}$$

GATE ECE 2004

MCQ (Single Correct Answer)

-0.6

A system described by the differential equation: $${{{d^2}y} \over {d{t^2}}} + 3{{dy} \over {dt}} + 2y = x(t)$$ is initially at rest. For input x(t) = 2u(t), the output y(t) is

$$(1 - 2{e^{ - t}} + {e^{ - 2t}})\,u(t)$$

$$(1 + 2{e^{ - t}} - 2\,{e^{ - 2t}})\,u(t)$$

$$(0.5 + {e^{ - t}} + 1.5\,{e^{ - 2t}})\,u(t)$$

$$(0.5 + 2{e^{ - t}} + 2\,\,{e^{ - 2t}})\,u(t)$$

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