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\(2sin\left(x+y\right)=sinx+siny\)
\(\Leftrightarrow2.2.sin\dfrac{x+y}{2}.cos\dfrac{x+y}{2}=2.sin\dfrac{x+y}{2}.cos\dfrac{x-y}{2}\)
\(\Leftrightarrow2cos\dfrac{x+y}{2}=cos\dfrac{x-y}{2}\)
\(\Leftrightarrow2\left(cos\dfrac{x}{2}.cos\dfrac{y}{2}-sin\dfrac{x}{2}.sin\dfrac{y}{2}\right)=cos\dfrac{x}{2}.cos\dfrac{y}{2}+sin\dfrac{x}{2}.sin\dfrac{y}{2}\)
\(\Leftrightarrow cos\dfrac{x}{2}.cos\dfrac{y}{2}=3.sin\dfrac{x}{2}.sin\dfrac{y}{2}\)
\(\Leftrightarrow\left(sin\dfrac{x}{2}:cos\dfrac{x}{2}\right).\left(sin\dfrac{y}{2}:cos\dfrac{y}{2}\right)=\dfrac{1}{3}\)
\(\Leftrightarrow tan\dfrac{x}{2}.tan\dfrac{y}{2}=\dfrac{1}{3}\)
2sin(x+y)=sinx+siny2sin(x+y)=sinx+siny
⇔2.2.sinx+y2.cosx+y2=2.sinx+y2.cosx−y2⇔2.2.sinx+y2.cosx+y2=2.sinx+y2.cosx−y2
⇔2cosx+y2=cosx−y2⇔2cosx+y2=cosx−y2
⇔2(cosx2.cosy2−sinx2.siny2)=cosx2.cosy2+sinx2.siny2⇔2(cosx2.cosy2−sinx2.siny2)=cosx2.cosy2+sinx2.siny2
⇔cosx2.cosy2=3.sinx2.siny2⇔cosx2.cosy2=3.sinx2.siny2
⇔(sinx2:cosx2).(siny2:cosy2)=13⇔(sinx2:cosx2).(siny2:cosy2)=13
⇔tanx2.tany2=13⇔tanx2.tany2=13
1) \(\dfrac{1-cosx+cos2x}{sin2x-sinx}=cotx\)
\(VT=\dfrac{1-cosx+2cos^2x-1}{2sinx.cosx-sinx}\)
\(VT=\dfrac{cosx\left(2cos-1\right)}{sinx\left(2cosx-1\right)}\)
\(VT=\dfrac{cosx}{sinx}=cotx=VP\) ( đpcm )
b) \(\dfrac{sinx+sin\dfrac{x}{2}}{1+cosx+cos\dfrac{x}{2}}=tan\dfrac{x}{2}\)
\(VT=\dfrac{sin\left(2.\dfrac{x}{2}\right)+sin\dfrac{x}{2}}{1+cos\left(2.\dfrac{x}{2}\right)+cos\dfrac{x}{2}}\)
\(VT=\dfrac{2sin\dfrac{x}{2}.cos\dfrac{x}{2}+sin\dfrac{x}{2}}{1+2cos^2\dfrac{x}{2}-1+cos\dfrac{x}{2}}\)
\(VT=\dfrac{2sin\dfrac{x}{2}.cos\dfrac{x}{2}+sin\dfrac{x}{2}}{2cos^2\dfrac{x}{2}+cos\dfrac{x}{2}}\)
\(VT=\dfrac{sin\dfrac{x}{2}\left(2cos\dfrac{x}{2}+1\right)}{cos\dfrac{x}{2}\left(2cos\dfrac{x}{2}+1\right)}\)
\(VT=\dfrac{sin\dfrac{x}{2}}{cos\dfrac{x}{2}}=tan\dfrac{x}{2}=VP\) ( đpcm )
c) \(\dfrac{2cos2x-sin4x}{2cos2x+sin4x}=tan^2\left(\dfrac{\pi}{4}-x\right)\)
\(VT=\dfrac{2cos2x-sin\left(2.2x\right)}{2cos2x+sin\left(2.2x\right)}\)
\(VT=\dfrac{2cos2x-2sin2x.cos2x}{2cos2x+2sin2x.cos2x}\)
\(VT=\dfrac{2cos2x\left(1-sin2x\right)}{2cos2x\left(1+sin2x\right)}\)
\(VT=\dfrac{1-sin2x}{1+sin2x}\)
\(VP=tan^2\left(\dfrac{\pi}{4}-x\right)=\dfrac{1-cos2\left(\dfrac{\pi}{4}-x\right)}{1+cos2\left(\dfrac{\pi}{4}-x\right)}\)
\(VP=\dfrac{1-cos\left(\dfrac{\pi}{2}-2x\right)}{1+cos\left(\dfrac{\pi}{2}-2x\right)}\)
\(VP=\dfrac{1-sin2x}{1+cos2x}=VT\) ( đpcm )
d) \(tanx-tany=\dfrac{sin\left(x-y\right)}{cosx.cosy}\)
\(VP=\dfrac{sin\left(x-y\right)}{cosx.cosy}=\dfrac{sinx.cosy-cosx.siny}{cosx.cosy}\)
\(VP=\dfrac{sinx.cosy}{cosx.cosy}-\dfrac{cosx.siny}{cosx.cosy}\)
\(VP=\dfrac{sinx}{cosx}-\dfrac{siny}{cosy}=tanx-tany=VT\) ( đpcm )
Áp dụng bất đẳng thức Côsi cho các số dương $x, y, z$, ta được:$x^{3}+y^{2} \geqslant 2 \sqrt{x^{3} \cdot y^{2}}=2 x y \cdot \sqrt{x}$$y^{3}+z^{2} \geqslant 2 \sqrt{y^{3} \cdot z^{2}}=2 y z \cdot \sqrt{y}$$z^{3}+x^{2} \geqslant 2 \sqrt{z^{3} \cdot x^{2}}=2 z x \cdot \sqrt{z}$Khi đó BĐT đã cho trở thành:$\dfrac{2 \sqrt{x}}{x^{3}+y^{2}}+\dfrac{2 \sqrt{y}}{y^{3}+z^{2}}+\dfrac{2 \sqrt{z}}{z^{3}+x^{2}} \leqslant \dfrac{2 \sqrt{x}}{2 x y \sqrt{x}}+\dfrac{2 \sqrt{y}}{2 y z \sqrt{y}}+\dfrac{2 \sqrt{z}}{2 z x \sqrt{z}}=\dfrac{1}{x y}+\dfrac{1}{y z}+\dfrac{1}{z x} (1)$Mặt khác ta có:$\dfrac{1}{x^{2}}+\dfrac{1}{y^{2}} \geqslant \dfrac{2}{x y} \Rightarrow \dfrac{1}{x y} \leqslant \dfrac{1}{2}\left(\dfrac{1}{x^{2}}+\dfrac{1}{y^{2}}\right)$
CMTT: $\dfrac{1}{y z} \leq \dfrac{1}{2}\left(\dfrac{1}{y^{2}}+\dfrac{1}{z^{2}}\right) ; \dfrac{1}{z x} \leqslant \dfrac{1}{2}\left(\dfrac{1}{z^{2}}+\dfrac{1}{x^{2}}\right)$Suy ra: $\dfrac{1}{x y}+\dfrac{1}{y z}+\dfrac{1}{z x} \leqslant \dfrac{1}{x^{2}}+\dfrac{1}{y^{2}}+\dfrac{1}{z^{2}}(2)$Từ $(1)$ và $(2)$ ta được: $\dfrac{2 \sqrt{x}}{x^{3}+y^{2}}+\dfrac{2 \sqrt{y}}{y^{3}+z^{2}}+\dfrac{2 \sqrt{z}}{z^{3}+x^{2}} \leqslant \dfrac{1}{x^{2}}+\dfrac{1}{y^{2}}+\dfrac{1}{z^{2}}$Dấu " $="$ xảy ra $\Leftrightarrow x=y=z=1$
Áp dụng bất đẳng thức Côsi cho các số dương $x, y, z$, ta được:
$x^{3}+y^{2} \geqslant 2 \sqrt{x^{3} \cdot y^{2}}=2 x y \cdot \sqrt{x}$
$y^{3}+z^{2} \geqslant 2 \sqrt{y^{3} \cdot z^{2}}=2 y z \cdot \sqrt{y}$
$z^{3}+x^{2} \geqslant 2 \sqrt{z^{3} \cdot x^{2}}=2 z x \cdot \sqrt{z}$
Khi đó BĐT đã cho trở thành:
$\dfrac{2 \sqrt{x}}{x^{3}+y^{2}}+\dfrac{2 \sqrt{y}}{y^{3}+z^{2}}+\dfrac{2 \sqrt{z}}{z^{3}+x^{2}} \leqslant \dfrac{2 \sqrt{x}}{2 x y \sqrt{x}}+\dfrac{2 \sqrt{y}}{2 y z \sqrt{y}}+\dfrac{2 \sqrt{z}}{2 z x \sqrt{z}}=\dfrac{1}{x y}+\dfrac{1}{y z}+\dfrac{1}{z x} (1)$
Mặt khác ta có:
$\dfrac{1}{x^{2}}+\dfrac{1}{y^{2}} \geqslant \dfrac{2}{x y} \Rightarrow \dfrac{1}{x y} \leqslant \dfrac{1}{2}\left(\dfrac{1}{x^{2}}+\dfrac{1}{y^{2}}\right)$
CMTT: $\dfrac{1}{y z} \leq \dfrac{1}{2}\left(\dfrac{1}{y^{2}}+\dfrac{1}{z^{2}}\right) ; \dfrac{1}{z x} \leqslant \dfrac{1}{2}\left(\dfrac{1}{z^{2}}+\dfrac{1}{x^{2}}\right)$
Suy ra: $\dfrac{1}{x y}+\dfrac{1}{y z}+\dfrac{1}{z x} \leqslant \dfrac{1}{x^{2}}+\dfrac{1}{y^{2}}+\dfrac{1}{z^{2}}(2)$
Từ $(1)$ và $(2)$ ta được: $\dfrac{2 \sqrt{x}}{x^{3}+y^{2}}+\dfrac{2 \sqrt{y}}{y^{3}+z^{2}}+\dfrac{2 \sqrt{z}}{z^{3}+x^{2}} \leqslant \dfrac{1}{x^{2}}+\dfrac{1}{y^{2}}+\dfrac{1}{z^{2}}$
Dấu " $="$ xảy ra $\Leftrightarrow x=y=z=1$
\(\dfrac{\pi}{2}< a< \pi\Rightarrow sina>0\)
\(\Rightarrow sina=\sqrt{1-cos^2a}=\dfrac{\sqrt{5}}{3}\)
\(K=2sina.cosa+2cos^2a-1=-\dfrac{1}{9}-\dfrac{4}{9}\sqrt{5}\)
\(\Rightarrow\dfrac{x}{y}=\dfrac{1}{4}\Rightarrow a-b=-3\)
\(A=\dfrac{4sin^4x-cos^2x\left(1-cos^2x\right)+sin^2x.cos^2x-2cos^2x}{sin^2x}+\dfrac{2}{tan^2x}\)
\(=\dfrac{4sin^4x-sin^2x.cos^2x+sin^2x.cos^2x-2cos^2x}{sin^2x}+2cot^2x\)
\(=4sin^2x-2cot^2x+2cot^2x=4sin^2x\)
\(\Rightarrow\left\{{}\begin{matrix}a=4\\b=2\end{matrix}\right.\)
Lời giải:
Ta có: \(xy+yz+xz=3xyz\Rightarrow \frac{1}{x}+\frac{1}{y}+\frac{1}{z}=3\)
Mà theo BĐT Cauchy-Schwarz: \(\frac{1}{x}+\frac{1}{y}+\frac{1}{z}\geq \frac{9}{x+y+z}\)
Do đó: \(3\geq \frac{9}{x+y+z}\Rightarrow x+y+z\geq 3\)
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Ta có: \(\text{VT}=x-\frac{xz}{x^2+z}+y-\frac{xy}{y^2+x}+z-\frac{yz}{z^2+y}\)
\(=(x+y+z)-\left(\frac{xy}{y^2+x}+\frac{yz}{z^2+y}+\frac{xz}{x^2+z}\right)\)
\(\geq x+y+z-\frac{1}{2}\left(\frac{xy}{\sqrt{xy^2}}+\frac{yz}{\sqrt{z^2y}}+\frac{xz}{\sqrt{x^2z}}\right)\) (AM-GM)
\(=x+y+z-\frac{1}{2}(\sqrt{x}+\sqrt{y}+\sqrt{z})\)
Tiếp tục AM-GM: \(\sqrt{x}+\sqrt{y}+\sqrt{z}\leq \frac{x+1}{2}+\frac{y+1}{2}+\frac{z+1}{2}=\frac{x+y+z+3}{2}\)
Suy ra:
\(\text{VT}\geq x+y+z-\frac{1}{2}.\frac{x+y+z+3}{2}=\frac{3}{4}(x+y+z)-\frac{3}{4}\)
\(\geq \frac{9}{4}-\frac{3}{4}=\frac{3}{2}=\frac{1}{2}\left(\frac{1}{x}+\frac{1}{y}+\frac{1}{z}\right)\)
Ta có đpcm
Dấu bằng xảy ra khi $x=y=z=1$
theo bđt cauchy schwarz ta có
\(\left\{{}\begin{matrix}\dfrac{2\sqrt{x}}{x^3+y^2}\le\dfrac{2\sqrt{x}}{2\sqrt{x^3y^2}}=\dfrac{1}{xy}\\\dfrac{2\sqrt{y}}{y^3+z^2}\le\dfrac{2\sqrt{y}}{2\sqrt{y^3z^2}}=\dfrac{1}{yz}\\\dfrac{2\sqrt{z}}{z^3+x^2}\le\dfrac{2\sqrt{z}}{2\sqrt{z^3y^2}}=\dfrac{1}{zy}\end{matrix}\right.\)
\(\Rightarrow\dfrac{1}{xy}+\dfrac{1}{yz}+\dfrac{1}{zx}\le\dfrac{\dfrac{1}{x^2}+\dfrac{1}{y^2}}{2}+\dfrac{\dfrac{1}{y^2}+\dfrac{1}{z^2}}{2}+\dfrac{\dfrac{1}{z^2}+\dfrac{1}{x^2}}{2}=\dfrac{1}{x^2}+\dfrac{1}{y^2}+\dfrac{1}{z^2}\)\(\Rightarrow dpcm\)
\(A=\dfrac{\sqrt{2}.cosx-2cos\left(\dfrac{\pi}{4}+x\right)}{-\sqrt{2}.sinx+2sin\left(\dfrac{\pi}{4}+x\right)}\)
\(=\dfrac{\sqrt{2}.cosx-2\left(cos\dfrac{\pi}{4}.cosx-sin\dfrac{\pi}{4}.sinx\right)}{-\sqrt{2}.sinx+2\left(sin\dfrac{\pi}{4}.cosx+cos\dfrac{\pi}{4}.sinx\right)}\)
\(=\dfrac{\sqrt{2}.cosx-\sqrt{2}.cosx+\sqrt{2}.sinx}{-\sqrt{2}.sinx+\sqrt{2}.cosx+\sqrt{2}.sinx}\)
\(=\dfrac{\sqrt{2}.sinx}{\sqrt{2}.cosx}=tanx\)
Câu 2:
\(A=2\cdot\dfrac{1}{2}+3\cdot\dfrac{1}{2}+1=1+1+1=3\)
Bài 3:
\(cos^2a=1-\left(\dfrac{12}{13}\right)^2=\dfrac{25}{169}\)
mà cosa>0
nên cosa=5/13
=>tan a=12/5; cot a=5/12
Câu 4: \(sin^2a=1-\dfrac{1}{4}=\dfrac{3}{4}\)
mà sina <0
nên sin a=-căn 3/2
=>tan a=-căn 3
\(A=-\dfrac{\sqrt{3}}{2}+\dfrac{1}{2}\cdot\left(-\sqrt{3}\right)=-\sqrt{3}\)