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Question
Using De Moivre’s theorem, find the least positive integer n such that `((2i)/(1+i))^n` is a positive integer.
Solution
We have, `(2i)/(1+i) = (2i)/(1+i) xx (1-i)/(1-i)`
= `(2(1+i))/(2) = 1 + i`
Let 1 + i = r cos θ + i r sin θ
⇒ r cos θ = 1, r sin θ = 1
∴ r2 (cos2 θ + sin2 θ ) = (1)2 + (1)2
r2 = 2 ⇒ r = `sqrt2`
and tan θ = `(1)/(1)`
tan θ = tan `(π/4)`
θ = `(π)/(4)`
`((2i)/(1+i)) = sqrt2 ( cos (π)/(4) + i sin (π)/(4))`
`((2i)/(1+i))^n = [ sqrt2 ( cos (π)/(4) + i sin (π)/(4)]^n`
= `2^(n/2) ( cos (nπ)/(4) + i sin (nπ)/(4))`
Which is a positive integer
If `(nπ)/(4)` = 0, 2π, 4π, 6π, ...
⇒ n = 0, 8, 16, 24, ...
⇒ The least value of n is 4
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