Sketch the time domain waveform r(t) and find the Laplace transform X(s) for the following signals. Specify and sketch the ROC. (a) r(t) = 4e³t sin(6πt+) u(t). (b) r(t) = 3e-2tu(t) + 5e³tu(-t). (c) r(t) = t²e-tu(t). Here u(t)= [0,0) (t) denotes the unit step.

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### Problem Statement

Sketch the time domain waveform \( x(t) \) and find the Laplace transform \( X(s) \) for the following signals. Specify and sketch the ROC (Region of Convergence).

#### Signals

(a) \( x(t) = 4e^{3t} \sin(6\pi t + \frac{\pi}{4}) \, u(t) \).

(b) \( x(t) = 3e^{-2t}u(t) + 5e^{3t}u(-t) \).

(c) \( x(t) = t^2 e^{-t} u(t) \).

Here \( u(t) = I_{[0,\infty)}(t) \) denotes the unit step function.
Transcribed Image Text:### Problem Statement Sketch the time domain waveform \( x(t) \) and find the Laplace transform \( X(s) \) for the following signals. Specify and sketch the ROC (Region of Convergence). #### Signals (a) \( x(t) = 4e^{3t} \sin(6\pi t + \frac{\pi}{4}) \, u(t) \). (b) \( x(t) = 3e^{-2t}u(t) + 5e^{3t}u(-t) \). (c) \( x(t) = t^2 e^{-t} u(t) \). Here \( u(t) = I_{[0,\infty)}(t) \) denotes the unit step function.
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