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I found this trigonometric part in a complex variable problem, can anyone please show how to get it,thanks

$$\frac{(\cos x+i\sin x )-1}{(\cos x+i\sin x )+1}=-i\tan (x/2)$$

2 Answers2

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$$\dfrac{1-(\cos x+i\sin x)}{1+(\cos x+i\sin x)}=\\ \dfrac{1-\cos x-i\sin x}{1+\cos x+i\sin x}=\\\dfrac{2sin^2(\frac x2)-i2sin(\frac x2)\cos(\frac x2)}{2\cos^2(\frac x2)+i2\sin(\frac x2)cos(\frac x2)}=$$simplify $$=\frac{\sin(\frac x2)}{\cos(\frac x2)}.\frac{sin(\frac x2)-icos(\frac x2)}{\cos(\frac x2)+i\sin(\frac x2)}=\\\tan(\frac x2)\times \frac ii\times \frac{\sin(\frac x2)-i\cos(\frac x2)}{\cos(\frac x2)+i\sin(\frac x2)}=\\\frac 1i \tan(\frac x2)\frac{i \sin(\frac x2)- i^2\cos(\frac x2)}{\cos(\frac x2)+isin(\frac x2)} =\\\frac 1i \tan(\frac x2)\frac{i \sin(\frac x2)+\cos(\frac x2)}{\cos(\frac x2)+i\sin(\frac x2)} =\\\frac 1i \tan(\frac x2)=\\-i\tan(\frac x2)$$

Khosrotash
  • 24,922
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Hint

$$\dfrac{1-(\cos(x)+i\sin(x))}{1+(\cos(x)+i\sin(x))}=\frac{1-e^{ix} }{1+e^{ix} }=-\frac{e^{ix}-1 }{e^{ix}+1}=-\frac{e^{ix/2}-e^{-ix/2}}{e^{ix/2}+e^{-ix/2}}=-\tanh(i\frac x2)$$