Question:
Let $f(x) = \cos x \sin 2x$, then
Let $f(x) = \cos x \sin 2x$, then
Updated On: Jul 6, 2022
- $min\,f(x)=-\frac{1}{3\sqrt3}$ for $x\,\in \,[-\pi,\pi]$
- $min\,f(x)>-\frac{9}{7} $ or $ -\frac{7}{9}$ for $ x\, \in\,[-\pi,\pi]$
- $min\,f(x)>-\frac{1}{9} $ for $x \, \in\,[-\pi,\pi]$
- $min\,f(x)>-\frac{2}{9}$ for $x\, \in\,[-\pi,\pi]$
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The Correct Option is B
Solution and Explanation
$f(x) = cos \,x \,sin\, 2x = cos \,x(2sin \,x \,cos \,x)$
$= 2 \,sin \,x (1 - sin^2 \,x) = 2 \,sin \,x - 2 \,sin^3 \,x$
min. $f(x) =$ min.$g(t)$ where $g(t) = 2t - 2t^3$
$x \in [-\pi, \pi]$, $t\,\in [- 1, 1]$
$g'(t) = 2 - 6t^2 = 0$
$\Rightarrow t = \pm \frac{1}{\sqrt{3}}, g''\left(t\right) = -12t$
$\therefore g''\left(\frac{1}{\sqrt{3}}\right) < 0$ and $g'' \left(-\frac{1}{\sqrt{3}} > 0\right)$
Hence min. $g\left(t\right) = g \left(-\frac{1}{\sqrt{3}} \right), t\,\in \left[-1, 1\right]$
$= -\frac{2}{\sqrt{3}}+2\cdot\frac{1}{3\sqrt{3}}$
$=- \frac{4}{3\sqrt{3}} > -\frac{7}{9} > -\frac{9}{7}$
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Increasing and Decreasing Function:
Consider y = f(x) be a differentiable function (whose derivative exists at all points in the domain) in an interval x = (a,b).
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