Finheacl 11 Simplifier les exprossions suiventes : \[ \left.\begin{array}{l|l} A(x)=(\cos x+\sin x)^{2}+(\cos x-\sin x)^{2} \\ B(x)=\cos ^{4} x-\sin ^{4} x-\sin ^{2} x+\cos ^{2} x \end{array} \right\rvert\, C(x)=\sin ^{4} x-\cos ^{4} x+2 \cos ^{2} x \] FXLRCMCH 12 Soit \( x \) un reel tel que : \( \cos x+\sin x=\frac{5}{6} \), Calculer 4. \( \sin x \cos x \) \( 1 \frac{1}{\cos x}+\frac{1}{\sin x} \) \( \sqrt{13} \tan x+\frac{1}{\tan x} \) \( \square \) \( \cos ^{3} x+\sin ^{3} x \) BNincter 1: 1 Soit \( x \) un reel. Développer \( \left(\cos ^{2} x+\sin ^{2} x\right)^{3} \). Fn dédrire que : \( \cos ^{6} x+\sin ^{6} x+3 \sin ^{2} x \cos ^{2} x=1 \) 2. Montrer que: \( \sin ^{6} \frac{3 \pi}{8}+\sin ^{6} \frac{\pi}{8}+3 \sin ^{2} \frac{7 \pi}{8} \cos ^{2} \frac{7 \pi}{8} \leq 1 \) Soient \( x \) et \( y \in] 0, \frac{\pi}{2}\left[\right. \) tels que : \( \sin x \sin y=\frac{\sqrt{2}}{2} \), Montrer que \( : 1+\tan ^{2} x+\tan ^{2} y=\tan ^{2} x \tan ^{2} y \)