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This page shows an example of LT transform computation

let $ x(t) = -e^{-2t}u(-t) $

then

$ X(s) = \int^{\infty}_{-\infty}x(t)e^{-st}dt $
$ X(s) = \int^{\infty}_{-\infty}-e^{-2t}u(-t)e^{-st}dt $
$ X(s) = \int^{0}_{-\infty}-e^{-2t}e^{-st}dt $

Now let $ s = a + jw $

$ X(s) = \int^{0}_{-\infty}-e^{-2t}e^{-(a+jw)t}dt $
$ X(s) = \int^{0}_{-\infty}-e^{-(2+a)t}e^{-jwt}dt $
$ X(s) = \left[-\frac{e^{-(2+a)t}e^{-jwt}}{-(2+a+jw)}\right]^{0}_{-\infty} $

From that, we can conclude that if $ 2 + a $ is greater or equal to 0 then the integral diverges. Else:

$ X(s) = -\frac{1}{-(2+a+jw)} - 0 $
$ X(s) = \frac{1}{2+s} $

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