Chọn A.

b) Do \(0< \alpha< \dfrac{\pi}{2}\) nên các giá trị lượng giác của \(\alpha\) đều dương.
Vì vậy:
\(cos\alpha=\sqrt{1-0,6^2}=\dfrac{4}{5}\).
\(tan\alpha=\dfrac{sin\alpha}{cos\alpha}=0,6:\dfrac{4}{5}=0,75;cot\alpha=1:tan\alpha=\dfrac{4}{3}\).

Do \(\dfrac{\pi}{2}< \alpha< \pi\) nên \(sin\alpha>0;tan\alpha< 0;cot\alpha< 0\).
\(sin\alpha=\sqrt{1-cos^2\alpha}=\dfrac{\sqrt{51}}{10}\).
\(tan\alpha=\dfrac{sin\alpha}{cos\alpha}=\dfrac{\sqrt{51}}{10}:\left(-0,7\right)=-\dfrac{\sqrt{51}}{7}\).
\(cot\alpha=\dfrac{1}{tan\alpha}=\dfrac{-7}{\sqrt{51}}\).

\(A=\frac{2tan15^0}{1-tan^215^0}=tan\left(2.15^0\right)=tan30^0=\frac{\sqrt{3}}{3}\)

\(B=\frac{1}{2}.2sin\frac{\pi}{16}.cos\frac{\pi}{16}.cos\frac{\pi}{8}=\frac{1}{2}.sin\left(2.\frac{\pi}{16}\right)cos\frac{\pi}{8}\)

\(=\frac{1}{4}.2sin\frac{\pi}{8}cos\frac{\pi}{8}=\frac{1}{4}sin\left(2.\frac{\pi}{8}\right)=\frac{1}{4}sin\frac{\pi}{4}=\frac{\sqrt{2}}{8}\)

\(\frac{3\pi}{4}< a< \pi\Rightarrow\left\{{}\begin{matrix}sina>0\\cosa< 0\end{matrix}\right.\)

\(\left\{{}\begin{matrix}sin^2a+cos^2a=1\\2sina.cosa=-\frac{4}{5}\end{matrix}\right.\)

\(\Rightarrow\left\{{}\begin{matrix}sin^2a+cos^2a=1\\cosa=-\frac{2}{5sina}\end{matrix}\right.\)

\(\Rightarrow sin^2a+\frac{4}{25sin^2a}=1\)

\(\Leftrightarrow25sin^4a-25sin^2a+4=0\) \(\Rightarrow\left[{}\begin{matrix}sin^2a=\frac{4}{5}\\sin^2a=\frac{1}{5}\end{matrix}\right.\)

\(\Rightarrow\left[{}\begin{matrix}\left\{{}\begin{matrix}sina=\frac{2}{\sqrt{5}}\\cosa=-\frac{1}{\sqrt{5}}\end{matrix}\right.\\\left\{{}\begin{matrix}sina=\frac{1}{\sqrt{5}}\\cosa=-\frac{2}{\sqrt{5}}\end{matrix}\right.\end{matrix}\right.\) 

Mà \(\frac{3\pi}{4}< a< \pi\Rightarrow\pi< a+\frac{\pi}{4}< \frac{5\pi}{4}\Rightarrow sina+cosa< 0\)

\(\Rightarrow\left\{{}\begin{matrix}sina=\frac{1}{\sqrt{5}}\\cosa=-\frac{2}{\sqrt{5}}\end{matrix}\right.\)

tại sao phải cộng thêm pi/4, mà tại sao cộng thêm pi/4 thì lại suy ra đc sina+cosa<0 vậy ạ 

\(A=\frac{1}{2}+\frac{1}{2}cos2x+\frac{1}{2}+\frac{1}{2}cos\left(2x+\frac{4\pi}{3}\right)+\frac{1}{2}+\frac{1}{2}cos\left(2x-\frac{4\pi}{3}\right)\)

\(=\frac{3}{2}+\frac{1}{2}cos2x+cos2x.cos\frac{4\pi}{3}\)

\(=\frac{3}{2}+\frac{1}{2}cos2x-\frac{1}{2}cos2x=\frac{3}{2}\)

\(B=\frac{1}{2}-\frac{1}{2}cos2x+\frac{1}{2}-\frac{1}{2}cos\left(2x+\frac{4\pi}{3}\right)+\frac{1}{2}-\frac{1}{2}cos\left(2x-\frac{4\pi}{3}\right)\)

\(=\frac{3}{2}-\frac{1}{2}cos2x-cos2x.cos\frac{4\pi}{3}\)

\(=\frac{3}{2}-\frac{1}{2}cos2x+\frac{1}{2}cos2x=\frac{3}{2}\)

\(\pi< a< \frac{3\pi}{2}\Rightarrow sina< 0\)

\(\Rightarrow sina=-\sqrt{1-cos^2a}=-\frac{12}{13}\)

\(sin2a=2sina.cosa=\frac{120}{169}\)

\(cos2a=2cos^2a-1=-\frac{119}{169}\)

\(tan2a=\frac{sin2a}{cos2a}=-\frac{120}{119}\)

\(sinx+cosx=\sqrt{2}\left(\frac{\sqrt{2}}{2}sinx+\frac{\sqrt{2}}{2}cosx\right)=\sqrt{2}\left(sinx.cos\frac{\pi}{4}+cosx.sin\frac{\pi}{4}\right)=\sqrt{2}sin\left(x+\frac{\pi}{4}\right)\)

\(=\sqrt{2}cos\left(\frac{\pi}{2}-\left(x+\frac{\pi}{4}\right)\right)=\sqrt{2}cos\left(\frac{\pi}{4}-x\right)=\sqrt{2}cos\left(x-\frac{\pi}{4}\right)\)

\(sinx-cosx=\sqrt{2}\left(\frac{\sqrt{2}}{2}sinx-\frac{\sqrt{2}}{2}cosx\right)=\sqrt{2}\left(sinx.cos\frac{\pi}{4}-cosx.sin\frac{\pi}{4}\right)=\sqrt{2}sin\left(x-\frac{\pi}{4}\right)\)

\(=-\sqrt{2}sin\left(\frac{\pi}{4}-x\right)=-\sqrt{2}cos\left(\frac{\pi}{2}-\left(\frac{\pi}{4}-x\right)\right)=-\sqrt{2}cos\left(x+\frac{\pi}{4}\right)\)

\(sin^4x-cos^4x=\left(sin^2x-cos^2x\right)\left(sin^2x+cos^2x\right)+sin2x\)

\(=sin^2x-cos^2x+sin2x=sin2x-cos2x\)

\(=\sqrt{2}sin\left(2x-\frac{\pi}{4}\right)\)

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