Решебник по алгебре и начала математического анализа 10 класс Алимов Задание 1366

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Год:2020-2021-2022-2023
Тип:учебник
Серия:Базовый и углубленный уровни

Задание 1366

\[\boxed{\mathbf{1366}\mathbf{.}}\]

\[1)\sin{2x} = 3\sin x \bullet \cos^{2}x\]

\[2\sin x \bullet \cos x - 3\sin x \bullet \cos^{2}x = 0\]

\[\sin x \bullet \cos x \bullet \left( 2 - 3\cos x \right) = 0\]

\[\sin x = 0\]

\[x = \arcsin 0 + \pi n = \pi n.\]

\[\cos x = 0\]

\[x = \arccos 0 + \pi n = \frac{\pi}{2} + \pi n.\]

\[2 - 3\cos x = 0\]

\[3\cos x = 2\]

\[\cos x = \frac{2}{3}\]

\[x = \pm \arccos\frac{2}{3} + 2\pi n.\]

\[Ответ:\ \ \pi n;\ \ \frac{\pi}{2} + \pi n;\ \ \]

\[\ \ \ \ \ \pm \arccos\frac{2}{3} + 2\pi n.\]

\[2)\sin{4x} = \sin{2x}\]

\[2\sin{2x} \bullet \cos{2x} - \sin{2x} = 0\]

\[\sin{2x} \bullet \left( 2\cos{2x} - 1 \right) = 0\]

\[\sin{2x} = 0\]

\[2x = \arcsin 0 + \pi n = \pi n\]

\[x = \frac{\text{πn}}{2}.\]

\[2\cos{2x} - 1 = 0\]

\[2\cos{2x} = 1\]

\[\cos{2x} = \frac{1}{2}\]

\[2x = \pm \arccos\frac{1}{2} + 2\pi n\]

\[2x = \pm \frac{\pi}{3} + 2\pi n\]

\[x = \frac{1}{2} \bullet \left( \pm \frac{\pi}{3} + 2\pi n \right)\]

\[x = \pm \frac{\pi}{6} + \pi n.\]

\[Ответ:\ \ \frac{\text{πn}}{2};\ \ \pm \frac{\pi}{6} + \pi n.\]

\[3)\cos{2x} + \cos^{2}x = 0\]

\[\cos^{2}x - \sin^{2}x + \cos^{2}x = 0\]

\[2\cos^{2}x - \left( 1 - \cos^{2}x \right) = 0\]

\[3\cos^{2}x - 1 = 0\]

\[3\cos^{2}x = 1\]

\[\cos^{2}x = \frac{1}{3}.\]

\[1)\ \cos x = - \frac{1}{\sqrt{3}}\]

\[x = \pm \left( \pi - \arccos\frac{1}{\sqrt{3}} \right) + 2\pi n.\]

\[2)\ \cos x = \frac{1}{\sqrt{3}}\]

\[x = \pm \arccos\frac{1}{\sqrt{3}} + 2\pi n.\]

\[Ответ:\ \ \pm \arccos\frac{1}{\sqrt{3}} + \pi n.\]

\[4)\sin{2x} = \cos^{2}x\]

\[2\sin x \bullet \cos x - \cos^{2}x = 0\]

\[\cos x \bullet \left( 2\sin x - \cos x \right) = 0\]

\[\cos x = 0\]

\[x = \arccos 0 + \pi n = \frac{\pi}{2} + \pi n.\]

\[2\sin x - \cos x = 0\ \ \ \ \ |\ :\cos x\]

\[2\ tg\ x - 1 = 0\]

\[tg\ x = \frac{1}{2}\]

\[x = arctg\frac{1}{2} + \pi n.\]

\[Ответ:\ \ \frac{\pi}{2} + \pi n;\ \ arctg\frac{1}{2} + \pi n.\]

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