Finding Principal Root of \sqrt[3]{8i}: Stuck at Arctan?

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To find the principal root of \sqrt[3]{8i}, the discussion emphasizes converting the complex number to polar coordinates. The modulus r is calculated as 8, while the angle θ is determined to be \frac{\pi}{2} since the point lies on the positive imaginary axis. Although using θ = arctan(y/x) is standard, it becomes undefined when x = 0, which is acknowledged in the conversation. The clarification that θ can still be identified as \frac{\pi}{2} is crucial for solving the problem. Ultimately, the participant successfully finds the answer after this discussion.
MikeH
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I have to find the principal root of \sqrt[3]{8 i}
But I get stuck at this part
change this to polar coordinates...
r= \sqrt {x^2 + y^2}
which makes r=8
but when I try to find \theta
\theta = \arctan \frac{y}{x}
from the original x = 0 so how do I find \theta?
 
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Don't just use formulas without thinking! When you say change "this" to polar coordinates you mean 8i: in the complex plane, that's the point (0, 8)- on the positive imaginary (y) axis which makes a right angle with the real (x) axis- \theta is \frac{\pi}{2} or 90 degrees.

(Of course, \theta= arctan\frac{y}{x} does work even in this case: tan(\frac{\pi}{2}) is undefined.}
 
Thanks for your help, I found the answer :smile:
 

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