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This is a contour integral from a proof, somebody there told me it followed from cauchy integral formula, i know (i probably dont understand it) cauchys integral formula: $f(z_0)=\frac{1}{2\pi i}\int_\gamma \frac{f(z)}{z-z_0}$and i dont understand how one can get to this :

$\int_\gamma \frac{1}{2z}dz =\pi i$

with the help of it. Please do tell me if you see it.

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    for $\gamma$ the unit circle (traversed once, counter-clockwise) we have $ \int_{\gamma}dz/z=\int_0^{2\pi}e^{-i\theta}ie^{i\theta}d\theta=2\pi i $2012-09-12

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Take $f = 1$, and $z_0 =0$. Then $1 = \frac{1}{2\pi i}\int_{\gamma}\frac{1}{z-0} = \frac{1}{\pi i}\int_{\gamma}\frac{1}{2z}$ Thus, $\pi i = \int_{\gamma}\frac{1}{2z} $