I have attempted to solve for the constants
[MATH]\frac{1}{2\pi}\int_{0}^{\infty} e^{{\frac{-t}{2 \tau}} e^{i \omega t}} dt [/MATH]Where C(ω) is the real part of the answer and S(ω) is the imaginary part.
[MATH] C(\omega) = \frac{\tau}{\pi} \frac{1}{1+(2\omega \tau)^{2}}[/MATH]
[MATH] S(\omega) = \frac{2\tau^{2}\omega}{(1+(2\omega \tau)^{2})\pi}[/MATH]Is this correct?
I don't know how to prove Parseval's theorem. Help would be much appreciated.
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