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Parseval's Theorem

Parseval's Theorem says that ${\displaystyle \int _{-\infty }^{\infty }(|s(t)|)^{2}dt}$ in time transforms to ${\displaystyle \int _{-\infty }^{\infty }(|S(f)|)^{2}df}$ in frequency

Note that ${\displaystyle (|s(t)|)^{2}={\frac {s(t)^{.}s^{*}(t)}{2}}}$

and also that

${\displaystyle s(t)=F^{-1}[S(f)]=\int _{-\infty }^{\infty }S(f)e^{j2\pi ft}df}$

Therefore

${\displaystyle (|s(t)|)^{2}={\frac {1}{2}}\int _{-\infty }^{\infty }\int _{-\infty }^{\infty }S(f)e^{j2\pi ft}S(f)e^{-j2\pi ft}dfdf}$

Note that ${\displaystyle |e^{j2\pi ft}|={\sqrt {cos^{2}(2\pi ft)+sin^{2}(2\pi ft)}}=1}$

The above equation of ${\displaystyle |s(t)|}$ simplifies to then ${\displaystyle |s(t)|=\int _{-\infty }^{\infty }S(f)df=|S(f)|}$

Therefore,squaring the function and intergrating it in the time domain ${\displaystyle \int _{-\infty }^{\infty }(|s(t)|)^{2}dt}$ is to do the same in the frequency domain ${\displaystyle \int _{-\infty }^{\infty }(|S(f)|)^{2}df}$