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Mathematik-Online lexicon:

Rational Power of a Complex Number


A B C D E F G H I J K L M N O P Q R S T U V W X Y Z overview

In order to calculate

$\displaystyle z =(-1+\mathrm{i})^{2/3}
$

we transform $ z$ into polar coordinates. This yields

$\displaystyle \left(\sqrt{2} \exp\left(\frac{3 \pi \mathrm{i}}{4}\right)\right)...
...sqrt[3]{2} \exp\left(\frac{\mathrm{i}\pi}{2}\right) w_3^{2k},
\quad k=0,1,2\,,
$

with $ w_3 = \exp(2\pi\mathrm{i}/3)$. Thus, possible values are

$\displaystyle z_0 =$ $\displaystyle \sqrt[3]{2}\; \mathrm{i} \,,$    
$\displaystyle z_1 =$ $\displaystyle \sqrt[3]{2} \; \mathrm{i} \exp\left( \frac{4 \pi \mathrm{i}}{3} \right) = \sqrt[3]{2}\left( \frac{\sqrt{3}}{2}-\frac{\mathrm{i}}{2} \right)\,,$    
$\displaystyle z_2 =$ $\displaystyle \sqrt[3]{2}\; \mathrm{i} \exp\left( \frac{8 \pi \mathrm{i}}{3} \right) = \sqrt[3]{2}\left( -\frac{\sqrt{3}}{2} -\frac{\mathrm{i}}{2} \right)\,.$    

The results can be easily checked. For example, we have

$\displaystyle z_1^3 = \left(\sqrt[3]{2} \;\mathrm{i} \exp\left( \frac{4 \pi \mathrm{i}}{3}
\right) \right)^3 = -2 \,\mathrm{i} \,,
$

which equals $ (-1+\mathrm{i})^2$ .


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  automatisch erstellt am 15. 11. 2013