Equivalence relation, complex numbers: x equiv y iff x^3 = y^3 for x,y complex

Faker97

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Let the relation ~ on \(\displaystyle \mathbb{C}\) be defined by:

. . . . .\(\displaystyle x\, \sim\, y\, \Longleftrightarrow\, x^3\, =\, y^3\)

...for \(\displaystyle x,\, y\, \in\, \mathbb{C}.\) You may assume that ~ is an equivalent relation.

Find all the elements of the equivalence classes \(\displaystyle \left[e^{i\pi / 4}\right]\, =\, \left\{z\, \in\, \mathbb{C}\, :\, z\, \sim\, e^{i\pi /4}\right\}\) and \(\displaystyle \left[-2\right]\, =\, \left\{z\, \in\, \mathbb{C}\, :\, z\, \sim \, -2\right\}\)




Any ideas on how to progress with this? Do you cube and add 2pi to the arguments? For the second part is it acceptable to rewrite -2 in exponential form and then continue from there? Thanks

https://gyazo.com/c0663bbc6abe1224ba5ea32de4568cec
 
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Yes, do exactly what the problem tells you to do. Since two complex numbers, x nd y, are equivalent if and only if \(\displaystyle x^3= y^3\), to find numbers equivalent to y you have to find all solutions to \(\displaystyle x^3= y^3\).

If \(\displaystyle y= e^{i\pi/4}\) then you need to find all solutions to \(\displaystyle x^3= e^{3i\pi/4}\). If y= 2 then \(\displaystyle y^3= 8\) so you need to find all solutions to \(\displaystyle x^3= 8\).
 
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