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Ta có \(2\sin x\cos x=\left(\sin x+\cos x\right)^2-\left(\sin^2x+\cos^2x\right)\)
\(=\left(\dfrac{3}{4}\right)^2-1=-\dfrac{7}{16}\)
Từ đó \(A=\left|\sin x-\cos x\right|\)
\(\Rightarrow A^2=\left(\sin x-\cos x\right)^2\)
\(A^2=\sin^2x+\cos^2x-2\sin x\cos x\)
\(A^2=1+\dfrac{7}{16}=\dfrac{23}{16}\)
\(\Rightarrow A=\dfrac{\sqrt{23}}{4}\) (do \(A\ge0\))
Có \(\cos x+\sin x=\dfrac{3}{4}\)
\(\Leftrightarrow\left(\cos x+\sin x\right)^2=\dfrac{9}{16}\)
\(\Leftrightarrow2.\sin x.\cos x+1=\dfrac{9}{16}\)
\(\Leftrightarrow\sin x.\cos x=-\dfrac{7}{32}\)
Lại có \(\left(\cos x+\sin x\right)^2=\left(\cos x-\sin x\right)^2+4.\sin x.\cos x=\dfrac{9}{16}\)
\(\Leftrightarrow\left(\cos x-\sin x\right)^2=\dfrac{23}{16}\)
\(\Leftrightarrow\left|\sin x-\cos x\right|=\dfrac{\sqrt{23}}{4}\)
\(P=sin^22x-\left[2sin\dfrac{x}{2}cos\dfrac{x}{2}\left(cos^4\dfrac{x}{2}-sin^4\dfrac{x}{2}\right)\right]^2\)
\(=sin^22x-\left[sinx\left(cos^2\dfrac{x}{2}-sin^2\dfrac{x}{2}\right)\left(cos^2\dfrac{x}{2}+sin^2\dfrac{x}{2}\right)\right]^2\)
\(=sin^22x-\left[sinx.cosx.1\right]^2\)
\(=sin^22x-\left[\dfrac{1}{2}sin2x\right]^2\)
\(=\dfrac{3}{4}sin^22x=\dfrac{3}{4}\left(1-cos^22x\right)=\dfrac{3}{4}\left(1-\dfrac{1}{4}\right)=\dfrac{9}{16}\)
\(sinx+cosx=m\Leftrightarrow\left(sinx+cosx\right)^2=m^2\)
\(\Leftrightarrow1+2sinx.cosx=m^2\Rightarrow sinx.cosx=\dfrac{m^2-1}{2}\)
\(A=sin^2x+cos^2x=1\)
\(B=sin^3x+cos^3x=\left(sinx+cosx\right)^3-3sinx.cosx\left(sinx+cosx\right)\)
\(=m^3-\dfrac{3m\left(m^2-1\right)}{2}=\dfrac{2m^3-3m^3+3m}{2}=\dfrac{3m-m^3}{2}\)
\(C=\left(sin^2+cos^2x\right)^2-2\left(sinx.cosx\right)^2=1-2\left(\dfrac{m^2-1}{2}\right)^2\)
\(D=\left(sin^2x\right)^3+\left(cos^2x\right)^3=\left(sin^2x+cos^2x\right)^3-3\left(sin^2x+cos^2x\right)\left(sinx.cosx\right)^2\)
\(=1-3\left(\dfrac{m^2-1}{2}\right)^2\)
\(A=s\left(x\right)cs\left(x\right)+\frac{\left(s^3\left(x\right)+cs^3\left(x\right)\right)}{cs\left(x\right)\left(1+t\left(x\right)\right)}=s\left(x\right)cs\left(x\right)+\left(\frac{\left(s\left(x\right)+cs\left(x\right)\right)\left(1-s\left(x\right)cs\left(x\right)\right)}{\left(s\left(x\right)+cs\left(x\right)\right)}\right)\)
\(=1\) vì \(s\left(x\right)+cs\left(x\right)\ne0,\forall0< =x< =\frac{\pi}{2}\)
\(\left(sinx+cosx\right)^2=\frac{25}{16}\Rightarrow1+2sinx.cosx=\frac{25}{16}\)
\(\Rightarrow sinx.cosx=\frac{9}{32}\)
\(\left(sinx-cosx\right)^2=\left(sinx+cosx\right)^2-4sinx.cosx=\frac{25}{16}-4.\frac{9}{32}=\frac{7}{16}\)
\(\Rightarrow sinx-cosx=\pm\frac{\sqrt{7}}{4}\)
\(M=sinx.cosx+\dfrac{sin^2x}{1+cotx}+\dfrac{cos^2x}{1+tanx}\)
\(=sinx.cosx+\dfrac{sin^2x}{\dfrac{cosx+sinx}{sinx}}+\dfrac{cos^2x}{\dfrac{cosx+sinx}{cosx}}\)
\(=sinx.cosx+\dfrac{sin^3x+cos^3x}{cosx+sinx}\)
\(=sinx.cosx+\dfrac{\left(sinx+cosx\right)\left(sin^2x+cos^2x-sinx.cosx\right)}{cosx+sinx}\)
\(=sinx.cosx+sin^2x+cos^2x-sinx.cosx\)
\(=sin^2x+cos^2x=1\)