The relationship between input signal x (t) and output signal y (t) is for a linear time-invariant (LTI) system in a continuous time given by the following differential equation d?y(t) dy(t) :- 2y(t) = x(t) dt2 dt a-) Determine the Laplace transform H (s) of the impulse response and plot the pole-zero. b-) Plot the regions of convergence (ROC) for the following situations. i. The system is stable. ii. The system is causal. iii. The system is not stable or causal. c-) Determine h (t) for the case where the system is causal.

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
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The relationship between input signal x
(t) and output signal y (t) is for a linear
time-invariant (LTI) system in a
continuous time given by the following
differential equation
d?y(t) dy(t)
- 2y(t) = x(t)
dt?
dt
a-) Determine the Laplace transform H (s) of the
impulse response and plot the pole-zero.
b-) Plot the regions of convergence (ROC) for the
following situations.
i. The system is stable.
ii. The system is causal.
i. The system is not stable or causal.
c-) Determine h (t) for the case where the system is
causal.
Transcribed Image Text:The relationship between input signal x (t) and output signal y (t) is for a linear time-invariant (LTI) system in a continuous time given by the following differential equation d?y(t) dy(t) - 2y(t) = x(t) dt? dt a-) Determine the Laplace transform H (s) of the impulse response and plot the pole-zero. b-) Plot the regions of convergence (ROC) for the following situations. i. The system is stable. ii. The system is causal. i. The system is not stable or causal. c-) Determine h (t) for the case where the system is causal.
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