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Write down the expansion of (cosx + isinx)^3. Hence, by using De Moivre's theorem, find cos3x in terms of powers of cosx.

First, we expand by using binomial expansion (it is always helpful to draw Pascal's triangle to find each term's coefficients): 1 1
1 2 1
1 3 3 1
Since the function is raised to the power of 3, we use the underlined coefficients. Therefore, the expansion will be:
(cosx + isinx)3 = 1cos3x + 3cos2x*(isinx)+ 3cosx(isinx)2 + 1*(isinx)3
Since i2 = -1, we can substitute the i2 terms in the equation, giving:
(cosx + isinx)3 = cos3x + 3cos2x(isinx) - 3cosxsin2x - isin3x
Now that we have our expansion, we can use De Moivre's theorem to obtain the cos3x term in the question (we simply convert the power into a multiple of the angle:
(cosx + isinx)3 = cos3x + isin3x
Equating the expansion to the above equation,
cos3x + isin3x = cos3x + 3cos2x(isinx) - 3cosxsin2x - isin3x
The question only asks for the real terms, so we can simple ignore the imaginary ones, since these will be the isin3x terms:
cos3x = cos3x - 3cosxsin2x
Although the above equation seems complete, the question asked for power of cosx. Therefore, we have to find a way to replace the sin2x term with cosx powers. Remembering the identity:
sin2x + cos2x = 1
We can replace the sin term:cos3x = cos3x - 3cosx(1 - cos2x)
Expanding, we get the answer:
cos3x = 4cos3x - 3cosx

HF
Answered by Hiro F. Maths tutor

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