See root of unity on Wiktionary
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"text": "In the case of the field of complex numbers, it follows from de Moivre's formula that the n nth roots of unity are #92;textstyle#92;cos#92;left(k#92;frac#123;2#92;pi#125;#123;n#125;#92;right)#43;i#92;sin#92;left(k#92;frac#123;2#92;pi#125;#123;n#125;#92;right), where k#61;1,#92;dots,n.",
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"ref": "2001, Jean-Pierre Tignol, Galois' Theory of Algebraic Equations, World Scientific, page 89:",
"text": "We now show that the primitive n-th roots of unity generate the other n-th roots of unity.",
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"ref": "2003, Fernando Gouvêa, p-adic Numbers: An Introduction, Springer, page 72:",
"text": "A nice application of Hensel's Lemma is to determine which roots of unity can be found in #92;Q#95;p.",
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"ref": "2007, Carl L. DeVito, Harmonic Analysis: A Gentle Introduction, Jones & Bartlett Learning, page 150:",
"text": "We have seen that, for a fixed value of n, the multiplicative group (U#95;n,#92;dot) is generated by any primitive nth root of unity. In particular, if #92;omega is a primitive 6th root of unity, then #92;omega⁶#61;1, six is the smallest positive integer for which this is true, and U#95;6#61;#92;#123;#92;omega⁰,#92;omega,#92;omega²,#92;omega³,#92;omega⁴,#92;omega⁵#92;#125;. It is easy to see that #92;omega², which is a 6th root of unity, is also a cube root of unity. The same is true of #92;omega⁴. The element #92;omega³ is a square root of unity, whereas #92;omega⁵ is primitive.",
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"An element of a given field (especially, a complex number) x such that for some positive integer n, xⁿ = 1."
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"text": "In the case of the field of complex numbers, it follows from de Moivre's formula that the n nth roots of unity are #92;textstyle#92;cos#92;left(k#92;frac#123;2#92;pi#125;#123;n#125;#92;right)#43;i#92;sin#92;left(k#92;frac#123;2#92;pi#125;#123;n#125;#92;right), where k#61;1,#92;dots,n.",
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