a) Tính cho sin α=\(\frac{2}{3}\) và 0∠α∠\(\frac{\pi}{2}\). Tính giá trị của biểu thức A=\(\frac{3\sin\alpha-\sqrt{5}.\cos\alpha}{2.\tan\alpha}\)
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a) Vì \(0<\alpha <\frac{\pi }{2} \) nên \(\sin \alpha > 0\). Mặt khác, từ \({\sin ^2}\alpha + {\cos ^2}\alpha = 1\) suy ra
\(\sin \alpha = \sqrt {1 - {{\cos }^2}a} = \sqrt {1 - \frac{1}{{25}}} = \frac{{2\sqrt 6 }}{5}\)
Do đó, \(\tan \alpha = \frac{{\sin \alpha }}{{\cos \alpha }} = \frac{{\frac{{2\sqrt 6 }}{5}}}{{\frac{1}{5}}} = 2\sqrt 6 \) và \(\cot \alpha = \frac{{\cos \alpha }}{{\sin \alpha }} = \frac{{\frac{1}{5}}}{{\frac{{2\sqrt 6 }}{5}}} = \frac{{\sqrt 6 }}{{12}}\)
b) Vì \(\frac{\pi }{2} < \alpha < \pi\) nên \(\cos \alpha < 0\). Mặt khác, từ \({\sin ^2}\alpha + {\cos ^2}\alpha = 1\) suy ra
\(\cos \alpha = \sqrt {1 - {{\sin }^2}a} = \sqrt {1 - \frac{4}{9}} = -\frac{{\sqrt 5 }}{3}\)
Do đó, \(\tan \alpha = \frac{{\sin \alpha }}{{\cos \alpha }} = \frac{{\frac{2}{3}}}{{-\frac{{\sqrt 5 }}{3}}} = -\frac{{2\sqrt 5 }}{5}\) và \(\cot \alpha = \frac{{\cos \alpha }}{{\sin \alpha }} = \frac{{-\frac{{\sqrt 5 }}{3}}}{{\frac{2}{3}}} = -\frac{{\sqrt 5 }}{2}\)
c) Ta có: \(\cot \alpha = \frac{1}{{\tan \alpha }} = \frac{1}{{\sqrt 5 }}\)
Ta có: \({\tan ^2}\alpha + 1 = \frac{1}{{{{\cos }^2}\alpha }} \Rightarrow {\cos ^2}\alpha = \frac{1}{{{{\tan }^2}\alpha + 1}} = \frac{1}{6} \Rightarrow \cos \alpha = \pm \frac{1}{{\sqrt 6 }}\)
Vì \(\pi < \alpha < \frac{{3\pi }}{2} \Rightarrow \sin \alpha < 0\;\) và \(\,\,\cos \alpha < 0 \Rightarrow \cos \alpha = -\frac{1}{{\sqrt 6 }}\)
Ta có: \(\tan \alpha = \frac{{\sin \alpha }}{{\cos \alpha }} \Rightarrow \sin \alpha = \tan \alpha .\cos \alpha = \sqrt 5 .(-\frac{1}{{\sqrt 6 }}) = -\sqrt {\frac{5}{6}} \)
d) Vì \(\cot \alpha = - \frac{1}{{\sqrt 2 }}\;\,\) nên \(\,\,\tan \alpha = \frac{1}{{\cot \alpha }} = - \sqrt 2 \)
Ta có: \({\cot ^2}\alpha + 1 = \frac{1}{{{{\sin }^2}\alpha }} \Rightarrow {\sin ^2}\alpha = \frac{1}{{{{\cot }^2}\alpha + 1}} = \frac{2}{3} \Rightarrow \sin \alpha = \pm \sqrt {\frac{2}{3}} \)
Vì \(\frac{{3\pi }}{2} < \alpha < 2\pi \Rightarrow \sin \alpha < 0 \Rightarrow \sin \alpha = - \sqrt {\frac{2}{3}} \)
Ta có: \(\cot \alpha = \frac{{\cos \alpha }}{{\sin \alpha }} \Rightarrow \cos \alpha = \cot \alpha .\sin \alpha = \left( { - \frac{1}{{\sqrt 2 }}} \right).\left( { - \sqrt {\frac{2}{3}} } \right) = \frac{{\sqrt 3 }}{3}\)
Ta có:
a) \(\sin \left( {\alpha + \frac{\pi }{6}} \right) = \sin \alpha \cos \frac{\pi }{6} + \cos \alpha \sin \frac{\pi }{6} = \frac{{\sqrt 6 }}{3}.\frac{{\sqrt 3 }}{2} + \left( { - \frac{1}{{\sqrt 3 }}} \right).\frac{1}{2} = \frac{{ - \sqrt 3 + 3\sqrt 2 }}{6}\)
b) \(\cos \left( {\alpha + \frac{\pi }{6}} \right) = \cos \alpha .\cos \frac{\pi }{6} - \sin \alpha \sin \frac{\pi }{6} = \left( { - \frac{1}{{\sqrt 3 }}} \right).\frac{{\sqrt 3 }}{2} - \frac{{\sqrt 6 }}{3}.\frac{1}{2} = - \frac{{3 + \sqrt 6 }}{6}\)
c) \(\sin \left( {\alpha - \frac{\pi }{3}} \right) = \sin \alpha \cos \frac{\pi }{3} - \cos \alpha \sin \frac{\pi }{3} = \frac{{\sqrt 6 }}{3}.\frac{1}{2} - \left( { - \frac{1}{{\sqrt 3 }}} \right).\frac{{\sqrt 3 }}{2} = \frac{{3 + \sqrt 6 }}{6}\)
d) \(\cos \left( {\alpha - \frac{\pi }{6}} \right) = \cos \alpha \cos \frac{\pi }{6} + \sin \alpha \sin \frac{\pi }{6} = \left( { - \frac{1}{{\sqrt 3 }}} \right).\frac{{\sqrt 3 }}{2} + \frac{{\sqrt 6 }}{3}.\frac{1}{2} = \frac{{ - 3 + \sqrt 6 }}{6}\)
cotα = \(\frac{1}{3}\) \(\Leftrightarrow\frac{cos\alpha}{\sin\alpha}=\frac{1}{3}\Leftrightarrow\sin\alpha=3\cos\alpha\)
cotα =\(\frac{1}{\tan\alpha}=\frac{1}{3}\Rightarrow\tan\alpha=3\)
T = \(\frac{2016}{\sin^2\alpha-\sin\alpha\cos\alpha-\cos^2\alpha}=\frac{2016}{9\cos^2\alpha-3\cos^2\alpha-\cos^2\alpha}\) \(=\frac{2016}{5\cos^2\alpha}=\frac{2016}{5}\times\frac{1}{\cos^2\alpha}=\frac{2016}{5}\times\left(1+\tan^2\alpha\right)\) \(=\frac{2016}{5}\left(1+9\right)=4032\)
Ta có: \(cot\alpha=\dfrac{cos\alpha}{sin\alpha}=\dfrac{cos^2\alpha}{sin\alpha.cos\alpha}=\sqrt{5}\)
Lại có: \(\dfrac{1}{cot\alpha}=tan\alpha=\dfrac{sin\alpha}{cos\alpha}=\dfrac{sin^2\alpha}{cos\alpha.sin\alpha}=\dfrac{1}{\sqrt{5}}\)
\(\Rightarrow A=\dfrac{cos^2\alpha}{sin\alpha.cos\alpha}+\dfrac{sin^2\alpha}{sin\alpha.cos\alpha}=\sqrt{5}+\dfrac{1}{\sqrt{5}}=\dfrac{6}{\sqrt{5}}=\dfrac{6\sqrt{5}}{5}\)
Ta có : cot α = \(\sqrt{5}\Rightarrow\dfrac{cos\alpha}{sin\alpha}=\sqrt{5}\Rightarrow cos\alpha=\sqrt{5}.sin\alpha\)
\(A=\dfrac{sin^2\alpha+cos^2\alpha}{sin\alpha.cos\alpha}\)
\(A=\dfrac{sin^2\alpha+\left(\sqrt{5}sin\alpha\right)^2}{sin\alpha.\sqrt{5}sin\alpha}=\dfrac{sin^2\alpha+5sin^2\alpha}{\sqrt{5}sin^2\alpha}\)
\(A=\dfrac{6sin^2\alpha}{\sqrt{5}sin^2\alpha}=\dfrac{6}{\sqrt{5}}=\dfrac{6\sqrt{5}}{5}\)
a) Ta có \({\cos ^2}\alpha + {\sin ^2}\alpha \,\,\, = \,1\)
mà \(\sin \alpha = \frac{{\sqrt {15} }}{4}\) nên \({\cos ^2}\alpha + {\left( {\frac{{\sqrt {15} }}{4}} \right)^2}\,\,\, = \,1 \Rightarrow {\cos ^2}\alpha = \frac{1}{{16}}\)
Lại có \(\frac{\pi }{2} < \alpha < \pi \) nên \(\cos \alpha < 0 \Rightarrow \cos \alpha = - \frac{1}{4}\)
Khi đó \(\tan \alpha = \frac{{\sin \alpha }}{{co{\mathop{\rm s}\nolimits} \alpha }} = - \sqrt {15} ;\cot \alpha = \frac{1}{{\tan \alpha }} = - \frac{1}{{\sqrt {15} }}\)
b)
Ta có \({\cos ^2}\alpha + {\sin ^2}\alpha \,\,\, = \,1\)
mà \(\cos \alpha = - \frac{2}{3}\) nên \({\sin ^2}\alpha + {\left( {\frac{{ - 2}}{3}} \right)^2}\,\,\, = \,1 \Rightarrow {\sin ^2}\alpha = \frac{5}{9}\)
Lại có \( - \pi < \alpha < 0\) nên \(\sin \alpha < 0 \Rightarrow \sin \alpha = - \frac{{\sqrt 5 }}{3}\)
Khi đó \(\tan \alpha = \frac{{\sin \alpha }}{{co{\mathop{\rm s}\nolimits} \alpha }} = \frac{{\sqrt 5 }}{2};\cot \alpha = \frac{1}{{\tan \alpha }} = \frac{2}{{\sqrt 5 }}\)
c)
Ta có \(\tan \alpha = 3\) nên
\(\cot \alpha = \frac{1}{{\tan \alpha }} = \frac{1}{3}\)
\(\frac{1}{{{{\cos }^2}\alpha }} = 1 + {\tan ^2}\alpha \,\,\, = \,1 + {3^2} = 10\,\, \Rightarrow {\cos ^2}\alpha = \frac{1}{{10}}\)
Mà \({\cos ^2}\alpha + {\sin ^2}\alpha \,\,\, = \,1 \Rightarrow {\sin ^2}\alpha = \frac{9}{{10}}\)
Với \( - \pi < \alpha < 0\) thì \(\sin \alpha < 0 \Rightarrow \sin \alpha = - \sqrt {\frac{9}{{10}}} \)
Với \( - \pi < \alpha < - \frac{\pi }{2}\) thì \(\cos \alpha < 0 \Rightarrow \cos \alpha = - \sqrt {\frac{1}{{10}}} \)
và \( - \frac{\pi }{2} \le \alpha < 0\) thì \(\cos \alpha > 0 \Rightarrow \cos \alpha = \sqrt {\frac{1}{{10}}} \)
d)
Ta có \(\cot \alpha = - 2\) nên
\(\tan \alpha = \frac{1}{{\cot \alpha }} = - \frac{1}{2}\)
\(\frac{1}{{{{\sin }^2}\alpha }} = 1 + co{{\mathop{\rm t}\nolimits} ^2}\alpha \,\,\, = \,1 + {( - 2)^2} = 5\,\, \Rightarrow {\sin ^2}\alpha = \frac{1}{5}\)
Mà \({\cos ^2}\alpha + {\sin ^2}\alpha \,\,\, = \,1 \Rightarrow {\cos ^2}\alpha = \frac{4}{5}\)
Với \(0 < \alpha < \pi \) thì \(\sin \alpha > 0 \Rightarrow \sin \alpha = \sqrt {\frac{1}{5}} \)
Với \(0 < \alpha < \frac{\pi }{2}\) thì \(\cos \alpha > 0 \Rightarrow \cos \alpha = \sqrt {\frac{4}{5}} \)
và \(\frac{\pi }{2} \le \alpha < \pi \) thì \(\cos \alpha < 0 \Rightarrow \cos \alpha = - \sqrt {\frac{4}{5}} \)
\(P=\dfrac{2sin\alpha-3cos\alpha}{3sin\alpha+2cos\alpha}\\ =\dfrac{\dfrac{2sin\alpha}{cos\alpha}-\dfrac{3cos\alpha}{cos\alpha}}{\dfrac{3sin\alpha}{cos\alpha}+\dfrac{2cos\alpha}{cos\alpha}}\\ =\dfrac{2tan\alpha-3}{3tan\alpha+2}=\dfrac{2.3-3}{3.3+2}=\dfrac{3}{11}\)
Ta có: \(1 + {\tan ^2}\alpha = \frac{1}{{{{\cos }^2}\alpha }}\quad (\alpha \ne {90^o})\)
\( \Rightarrow \frac{1}{{{{\cos }^2}\alpha }} = 1 + {3^2} = 10\)
\( \Leftrightarrow {\cos ^2}\alpha = \frac{1}{{10}} \Leftrightarrow \cos \alpha = \pm \frac{{\sqrt {10} }}{{10}}\)
Vì \({0^o} < \alpha < {180^o}\) nên \(\sin \alpha > 0\).
Mà \(\tan \alpha = 3 > 0 \Rightarrow \cos \alpha > 0 \Rightarrow \cos \alpha = \frac{{\sqrt {10} }}{{10}}\)
Lại có: \(\sin \alpha = \cos \alpha .\tan \alpha = \frac{{\sqrt {10} }}{{10}}.3 = \frac{{3\sqrt {10} }}{{10}}.\)
\( \Rightarrow P = \dfrac{{2.\frac{{3\sqrt {10} }}{{10}} - 3.\frac{{\sqrt {10} }}{{10}}}}{{3.\frac{{3\sqrt {10} }}{{10}} + 2.\frac{{\sqrt {10} }}{{10}}}} = \dfrac{{\frac{{\sqrt {10} }}{{10}}\left( {2.3 - 3} \right)}}{{\frac{{\sqrt {10} }}{{10}}\left( {3.3 + 2} \right)}} = \dfrac{3}{{11}}.\)
Ta có: \(A = 2{\sin ^2}\alpha + 5{\cos ^2}\alpha = 2({\sin ^2}\alpha + {\cos ^2}\alpha ) + 3{\cos ^2}\alpha \)
Mà \({\cos ^2}\alpha + {\sin ^2}\alpha = 1;\cos \alpha = - \frac{{\sqrt 2 }}{2}.\)
\( \Rightarrow A = 2 + 3.{\left( { - \frac{{\sqrt 2 }}{2}} \right)^2} = 2 + 3.\frac{1}{2} = \frac{7}{2}.\)
\(0< a< \frac{\pi}{2}\Rightarrow\left\{{}\begin{matrix}cosa>0\\tana>0\end{matrix}\right.\)
\(cosa=\sqrt{1-sin^2a}=\frac{\sqrt{5}}{3}\)
\(tana=\frac{sina}{cosa}=\frac{2\sqrt{5}}{5}\)
Thay vào biểu thức B và bấm máy