What combinations satisfy this complex exponentiation property?

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Suppose we have the product

[(\pm ia) (\pm ib)]^{-\alpha}
wherea, b, \alpha >0. For which of the combinations (+,+), (+,-), (-,+), and (-,-) is the following property satisfied?

[(\pm ia) (\pm ib)]^{-\alpha}=(\pm ia)^{-\alpha} (\pm ib)^{-\alpha}
 
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Hi Bruno67! :smile:

Using the definition of exponentiation we have that

[(\pm ia)(pm ib)]^{-\alpha}=e^{-\alpha Log((\pm ia)(\pm ib))}

So the question becomes when

Log((\pm ia)(\pm ib))=Log(\pm ia)+Log(\pm ib)

Solve this using the definition of the logarithm.
 
Thanks, so it holds in all cases except the (-,-) one. In that case we have

[(-ia) (-ib)]^\alpha = (-ia)^\alpha (-ib)^\alpha (-1)^{2\alpha}.
 
Indeed!:smile:
 

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