Seems an easy one but i can't figure it out:
$z_1+z_2+z_3=0$
$|z_1|=|z_2|=|z_3|=1$
Need to prove the following:
$z_1^2+z_2^2+z_3^2=0$
Thanks!
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Conjugate $z_1+z_2+z_3=0$ and get $\frac{1}{z_1}+\frac{1}{z_2}+\frac{1}{z_3}=0$ which simplifies to $z_1z_2+z_1z_3+z_2z_3=0$. Now square the original equation and you are done!
Conrad
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2+1, simple and elegant. – rogerl Oct 31 '19 at 21:34
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great! thanks! :) – user3343396 Oct 31 '19 at 21:36
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you are welcome and @rogerl thank you for the comment – Conrad Oct 31 '19 at 21:37
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1I agree really nice solution! – user Oct 31 '19 at 21:39
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It suffices to prove that
$$z_1+z_2+z_3=0 \iff z_1=e^{i\theta} \quad z_2=we^{i\theta} \quad z_3=w^2e^{i\theta}$$
indicating with $w$ the principal third roots of unity, then
$$z_1^2+z_2^2+z_3^2=e^{2i\theta}+w^2e^{2i\theta}+w^4e^{2i\theta}=e^{2i\theta}(1+w+w^2)=0$$
Refer to the related
user
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