Integrate $$ \int_{|z-i|=1} \frac{1}{4z^2+1}dz $$ I have used the Cauchy's integral formula and got the answer $\pi/2$. However, my solution manual tells me its $i\pi/2$, who is right?
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You are correct. Well done!
We have
$$\frac{1}{4z^2+1}=\frac14\frac{1}{(z+i/2)(z-i/2)}$$
The only singularity inside the disc $|z-i|\le 1$ is at $z=i/2$.
The residue is $\frac {1}{4i}$ and therefore the integral is $\frac{\pi}{2}$.
Alternatively, using Cauchy's Integral Theorem with $f(z)=\frac{1}{4(z+i/2)}$ gives
$$f(i/2)=\frac{1}{2\pi i}\oint_{|z-i|=1}\frac{f(z)}{z-i/2}\,dz$$
and therefore $$\oint_{|z-i|=1}\frac{f(z)}{z-i/2}\,dz=\frac{\pi}{2}$$as expected!
Mark Viola
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Thanks! The answer in my book have been bugging me for so long and i have dubble checked everything so many times, i just had to get a second opinion. Now i can sleep! – Sep 12 '15 at 17:07
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You're welcome. My pleasure. – Mark Viola Sep 12 '15 at 17:57