The impulse response h(t) is the system's output when the input is which signal?

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Multiple Choice

The impulse response h(t) is the system's output when the input is which signal?

In linear time-invariant systems, the impulse response is the output that results when the input is an impulse δ(t). This is because the convolution y(t) = ∫ x(τ) h(t−τ) dτ, with x(t) = δ(t), becomes y(t) = δ(t) * h(t) = h(t). The delta input contains all frequencies equally, so the system’s response to it fully reveals its behavior. Therefore h(t) is exactly the system’s output to a delta input, and knowing h(t) lets you predict the output to any other input by convolving that input with h(t). The other signals produce different specific responses (step response, sine-wave response, ramp response), but they are not the impulse response itself.

The impulse response h(t) is the system's output when the input is which signal?

Study for the Signals and Systems Test. Enhance your understanding with interactive questions, detailed hints, and extensive explanations. Secure your success approach and master key concepts with ease.

The impulse response h(t) is the system's output when the input is which signal?

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