I'm looking for a way to accurately compute roots of negative numbers in Python. I believe that **the inaccuracies I see are related to floating point**, but it seems like there should be a way to get the right answer for something as simple as this:

```
>>(-1+0j)**0.1
(0.9510565162951535+0.3090169943749474j)
```

**The answer I expect** in this case is `(0+1j)`

. Though raising Python's response to the tenth does come close to -1, I am looking for an answer obtained from a more precise method, i.e., one that when raised to the tenth equals exactly -1, not a number really close to -1.

Is there a way to do this correctly with either a native Python library, or sympy/numpy/scipy etc?

thetenth root of a complex number. Python has given youatenth root, up to the limits of floating-point representation. How do you want to specify which root you want to get? – user2357112 supports Monica Feb 24 '15 at 20:40`0.1`

is impossible to represent exactly in floating point. Try`sum(0.1 for _ in range(8))`

for an example of the rounding errors it can lead to. – Blckknght Feb 24 '15 at 21:33