0,and zero otherwise. The input is x (t) and y(t) is the output.(a) Is this system LTI? If so, can you determine without any computation the impulse responseof the system? Explain.(b) Is this...


2.5 An analog system has the following input-output relation:<br>y(t) =<br>1p(1) x<br>t > 0,<br>and zero otherwise. The input is x (t) and y(t) is the output.<br>(a) Is this system LTI? If so, can you determine without any computation the impulse response<br>of the system? Explain.<br>(b) Is this system causal? Explain.<br>(c) Find the unit step response s(t) of the given system and from it find the impulse response<br>h(t). Is this a BIBO stable system? Explain.<br>(d) Find the response due to a pulse x(t) =u(1) – u(t – 1).<br>Answers: Yes, LTI with h(t) = e='u(t); causal and BIBO stable.<br>

Extracted text: 2.5 An analog system has the following input-output relation: y(t) = 1p(1) x t > 0, and zero otherwise. The input is x (t) and y(t) is the output. (a) Is this system LTI? If so, can you determine without any computation the impulse response of the system? Explain. (b) Is this system causal? Explain. (c) Find the unit step response s(t) of the given system and from it find the impulse response h(t). Is this a BIBO stable system? Explain. (d) Find the response due to a pulse x(t) =u(1) – u(t – 1). Answers: Yes, LTI with h(t) = e='u(t); causal and BIBO stable.

Jun 11, 2022
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