Answer to Question #117023 in Complex Analysis for Alikor hayford

Question #117023

Given that w denotes either one of the non-real roots of the equation z
3 = 1, show
that
(a) 1 + w + w
2 = 0, and
(b) the other non-real root is w
2
. Show that the non-real roots of the equation

1 − u
u
3
can be expressed in the form Aw and Bw2
, where A and B are real
numbers, find A and B

Expert's answer

"z^3=1""z^3-1=0""(z-1)(z^2+z+1)=0"

"z^2+ z+1=0"

"z={-1\\pm\\sqrt{1^2-4(1)^2}\\over2}={-1\\pm i\\sqrt{3}\\over2}"

Cube Root of Unity Value

"w_1=1,\\ real"

"w_2={-1- i\\sqrt{3}\\over2}, complex"

"w_3={-1+ i\\sqrt{3}\\over2}, \\ complex"

"z^3-u^3=0"

"z^3-u^3=(z-u)(z^2+u z+u^2)"

Then

"(z-u)(z^2+u z+u^2)=0"

"z^2+u z+u^2=0"

"z={-u\\pm\\sqrt{u^2-4u^2}\\over2}=u({-1\\pm i\\sqrt{3}\\over2})"

"z_1=u w_1=u\\cdot1=1\\cdot u+i\\cdot0, \\ real"

"z_2=u w_2=u\\cdot{-1- i\\sqrt{3}\\over2}=-{1\\over 2}u-i\\cdot{u\\sqrt{3}\\over 2},\\ complex"

"z_3=u w_3=u\\cdot{-1+ i\\sqrt{3}\\over2}=-{1\\over 2}u+i\\cdot{u\\sqrt{3}\\over 2},\\ complex"

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Answer to Question #117023 in Complex Analysis for Alikor hayford

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