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I want to compute the following :
1. $$\int_{\partial D_{2}(0)} \frac{e^{z}dz}{(z+1)(z-3)^{2}}dz,$$ 2. $$\int_{\partial D_{2}(-2i)}\frac{dz}{z^{2}+1} $$ 3. $$\int_{\partial D_{2}(0)} \frac{\sin z}{z+i} dz $$ 4. $$\int_{\partial D_{1}(0)} \frac{e^zdz}{(z-2)^3} dz,$$ where $D_{r}(c)$ denotes a disc with radius $r$ and center $c$.

(I will not write the curve in the integral )

  1. $$\int \frac{\frac{e^{z}}{z+1}}{(z-3)^{2}}=2\pi i f'''(3) = 2\pi i \frac{e^{3}(3-1)}{(3+1)^{3}}= \frac{e^{3}i}{16}.$$
  2. $i$ doesn't lie in the disc, so $$\int \frac{\frac{1}{z-i}}{(z+i)}dz = 2\pi i (\frac{1}{-i-i}) = -\pi. $$
  3. $$\int \frac{\sin zdz}{z+i} = 2\pi i \frac{\sin(i)}{-i} = -\pi i(\frac{e^{2}-2}{2e}).$$
  4. $0$ because $2$ does not lie in the disc.

I will be very glad if somebody could skim my answers and tell me if they are legit. Thanks for your attention.

  • 0
    You are missing a factorial in 1. See [Cauchy differentiation formula](http://en.wikipedia.org/wiki/Cauchy's_integral_formula) on wiki. Besides, you did not compute the derivative correctly.2011-11-22
  • 0
    I assume the rest are correct. Thanks.2011-11-22

1 Answers 1