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I'm trying to show that:

$ (1-\cos x)\left |\sum_{k=1}^n \sin(kx) \right|\left|\sum_{k=1}^n \cos(kx) \right|\leq 2$

It is equivalent to show that:

$ (1-\cos x) \left (\frac{\sin \left(\frac{nx}{2} \right)}{ \sin \left( \frac{x}{2} \right)} \right)^2 |\sin((n+1)x)|\leq 4 $

Any idea ?

  • 4
    How about using $ 1 - \cos x = 2\sin^2\left(\frac{x}{2}\right) $ ?2012-11-24

1 Answers 1

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Using the identity

$ 1 - \cos x = 2\sin^2\left(\frac{x}{2}\right), $

we readily identify the left-hand side as

$ 2 \sin^2 \left(\frac{nx}{2} \right) \left|\sin((n+1)x)\right|, $

which is clearly less than or equal to $2$.

  • 0
    Thank you! What a pity I didn't notice that...2012-11-25