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a) Vì \(\frac{\pi }{2} < a < \pi \) nên \(\cos a < 0\)
Ta có: \({\sin ^2}a + {\cos ^2}a = 1\)
\(\Leftrightarrow \frac{1}{9} + {\cos ^2}a = 1\)
\(\Leftrightarrow {\cos ^2}a = 1 - \frac{1}{9}= \frac{8}{9}\)
\(\Leftrightarrow \cos a =\pm\sqrt { \frac{8}{9}} = \pm \frac{{2\sqrt 2 }}{3}\)
Vì \(\cos a < 0\) nên \(cos a =-\frac{{2\sqrt 2 }}{3}\)
Suy ra \(\tan a = \frac{{\sin a}}{{\cos a}} = \frac{{\frac{1}{3}}}{{ - \frac{{2\sqrt 2 }}{3}}} = - \frac{{\sqrt 2 }}{4}\)
Ta có: \(\sin 2a = 2\sin a\cos a = 2.\frac{1}{3}.\left( { - \frac{{2\sqrt 2 }}{3}} \right) = - \frac{{4\sqrt 2 }}{9}\)
\(\cos 2a = 1 - 2{\sin ^2}a = 1 - \frac{2}{9} = \frac{7}{9}\)
\(\tan 2a = \frac{{2\tan a}}{{1 - {{\tan }^2}a}} = \frac{{2.\left( { - \frac{{\sqrt 2 }}{4}} \right)}}{{1 - {{\left( { - \frac{{\sqrt 2 }}{4}} \right)}^2}}} = - \frac{{4\sqrt 2 }}{7}\)
b) Vì \(\frac{\pi }{2} < a < \frac{{3\pi }}{4}\) nên \(\sin a > 0,\cos a < 0\)
\({\left( {\sin a + \cos a} \right)^2} = {\sin ^2}a + {\cos ^2}a + 2\sin a\cos a = 1 + 2\sin a\cos a = \frac{1}{4}\)
Suy ra \(\sin 2a = 2\sin a\cos a = \frac{1}{4} - 1 = - \frac{3}{4}\)
Ta có: \({\sin ^2}a + {\cos ^2}a = 1\;\)
\( \Leftrightarrow \left( {\frac{1}{2} - {\cos }a} \right)^2 + {\cos ^2}a - 1 = 0\)
\( \Leftrightarrow \frac{1}{4} - \cos a + {\cos ^2}a + {\cos ^2}a - 1 = 0\)
\( \Leftrightarrow 2{\cos ^2}a - \cos a - \frac{3}{4} = 0\)
\( \Rightarrow \cos a = \frac{{1 - \sqrt 7 }}{4}\) (Vì \(\cos a < 0)\)
\(\cos 2a = 2{\cos ^2}a - 1 = 2.{\left( {\frac{{1 - \sqrt 7 }}{4}} \right)^2} - 1 = - \frac{{\sqrt 7 }}{4}\)
\(\tan 2a = \frac{{\sin 2a}}{{\cos 2a}} = \frac{{ - \frac{3}{4}}}{{ - \frac{{\sqrt 7 }}{4}}} = \frac{{3\sqrt 7 }}{7}\)
\(\begin{array}{l}\cos 2a = \frac{1}{3} \Leftrightarrow {\cos ^2}a - {\sin ^2}a = \frac{1}{3}\,\,\left( 1 \right)\\{\cos ^2}a + {\sin ^2}a = 1\,\,\,\,\left( 2 \right)\end{array}\)
Từ (1) và (2) \( \Rightarrow \left\{ \begin{array}{l}{\cos ^2}a = \frac{2}{3}\\{\sin ^2}a = \frac{1}{3}\end{array} \right. \Leftrightarrow \left\{ \begin{array}{l}\cos a = \pm \frac{{\sqrt 6 }}{3}\\\sin a = \pm \frac{{\sqrt 3 }}{3}\end{array} \right.\)
Do \(\frac{\pi }{2} < a < \pi \)\( \Rightarrow \left\{ \begin{array}{l}\cos a = \frac{{-\sqrt 6 }}{3}\\\sin a = \ \frac{{\sqrt 3 }}{3}\end{array} \right.\)
\(\Rightarrow \tan a = \frac{{\sin a}}{{\cos a}} = - \frac{{\sqrt 2 }}{2}\)
\(\sin 2a = \sin \left( {a + a} \right) = \sin a.\cos a + \cos a.\sin a = 2\sin a\cos a\)
\(\begin{array}{l}\cos 2a = \cos \left( {a + a} \right) = \cos a.\cos a - \sin a.\sin a = {\cos ^2}a - {\sin ^2}a\\\tan 2a = \tan \left( {a + a} \right) = \frac{{\tan a + \tan a}}{{1 - \tan a.\tan a}} = \frac{{2\tan a}}{{1 - {{\tan }^2}a}}\end{array}\)
\(\sin 2a = \sin \left( {a + a} \right) = \sin \left( {a + b} \right) = \sin a\cos b + \sin b\cos a = 2\sin a\cos a\)
\(\cos 2a = \cos \left( {a + a} \right) = \cos \left( {a + b} \right) = \cos a\cos b - \sin a\sin b = {\cos ^2}a - {\sin ^2}a = 2{\cos ^2}a - 1\)
\( = 1 - 2{\sin ^2}a\)
\(\tan 2a = \tan \left( {a + a} \right) = \tan \left( {a + b} \right) = \frac{{\tan a + \tan b}}{{1 - \tan a\tan b}} = \frac{{2\tan a}}{{1 - {{\tan }^2}a}}\)
\(\dfrac{1}{tan^2a}+\dfrac{1}{cot^2a}+\dfrac{1}{sin^2a}+\dfrac{1}{cos^2a}=7\)
=>\(\dfrac{sin^2a+1}{cos^2a}+\dfrac{cos^2a+1}{sin^2a}=7\)
=>\(\dfrac{sin^4a+sin^2a+cos^4a+cos^2a}{sin^2a\cdot cos^2a}=7\)
=>\(sin^4a+cos^4a+1=7\cdot sin^2a\cdot cos^2a\)
=>\(\left(sin^2a+cos^2a\right)^2-2\cdot sin^2a\cdot cos^2a+1=7\cdot sin^2a\cdot cos^2a\)
=>\(2=9\cdot sin^2a\cdot cos^2a\)
=>\(8=9\cdot sin^22a\)
=>16=9(1-cos4a)
=>1-cos4a=16/9
=>cos4a=-7/9
Ta có:
\({\sin ^2}a + {\cos ^2}a = 1 \Leftrightarrow {\left( {\frac{2}{{\sqrt 5 }}} \right)^2} + {\cos ^2}a = 1 \Leftrightarrow {\cos ^2}a = \frac{1}{5}\)
\(\cos 2a = {\cos ^2}a - {\sin ^2}a = \frac{1}{5} - {\left( {\frac{2}{{\sqrt 5 }}} \right)^2} = - \frac{3}{5}\)
Ta có:
\({\cos ^2}2a + {\sin ^2}2a = 1 \Leftrightarrow {\left( {\frac{{ - 3}}{5}} \right)^2} + {\sin ^2}2a = 1 \Leftrightarrow {\sin ^2}2a = \frac{{16}}{{25}}\)
\(\cos 4a = \cos 2.2a = {\cos ^2}2a - {\sin ^2}2a = {\left( { - \frac{3}{5}} \right)^2} - \frac{{16}}{{25}} = - \frac{7}{{25}}\)
cho 3 góc A, B, C của tam giác lập thành 1 CSN có công bội q=2. Tính gtbt \(M=cos^2A+cos^2B+cos^2C\)
Không mất tính tổng quát, giả sử \(A< B< C\Rightarrow\left\{{}\begin{matrix}B=A.q=2A\\C=A.q^2=4A\end{matrix}\right.\)
\(A+B+C=180^0\Rightarrow A+2A+4A=180^0\)
\(\Rightarrow7A=180^0\Rightarrow\left\{{}\begin{matrix}A=\dfrac{180^0}{7}\\B=\dfrac{360^0}{7}\\C=\dfrac{720^0}{7}\end{matrix}\right.\)
Thế vào bấm máy biểu thức M. Nhưng tại sao người ta cho xấu vậy nhỉ?
a) Trong Hình 5, M là điểm biểu diễn của góc lượng giác \(\alpha \) trên đường tròn lượng giác. Ta có:
OK = MH = \(\sin \alpha \)
OH = KM = \(\cos \alpha \)
\(\begin{array}{l}O{M^2} = O{H^2} + M{H^2}\\ \Rightarrow 1 = {\sin ^2}\alpha + {\cos ^2}\alpha \end{array}\)
b) \(1 + {\tan ^2}\alpha = \frac{{{{\cos }^2}\alpha }}{{{{\cos }^2}\alpha }} + \frac{{{{\sin }^2}\alpha }}{{{{\cos }^2}\alpha }} = \frac{1}{{{{\cos }^2}\alpha }}\)
\(\sin a + \cos a = 1 \Rightarrow {\left( {\sin a + \cos a} \right)^2} = 1 \)
\(\Leftrightarrow {\sin ^2}a + {\cos ^2} + 2\sin a\cos a = 1 \Leftrightarrow 1 + \sin 2a = 1\)
\(\Leftrightarrow \sin 2a = 0\)
\(1+tan^2\alpha=\dfrac{1}{cos^2\alpha}\Rightarrow1+2^2=\dfrac{1}{cos^2\alpha}\\ \Rightarrow5=\dfrac{1}{cos^2\alpha}\Rightarrow cos^2\alpha=\dfrac{1}{5}\)