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Question
Verify Rolle's theorem for the following function on the indicated interval \[f\left( x \right) = \frac{6x}{\pi} - 4 \sin^2 x \text { on } [0, \pi/6]\] ?
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Solution
The given function is \[f\left( x \right) = \frac{6x}{\pi} - 4 \sin^2 x\] .
Since \[\sin^2 x \text { & }x\] are everywhere continuous and differentiable, \[f\left( x \right)\] is continuous on \[\left[ 0, \frac{\pi}{6} \right]\] and differentiable on \[\left( 0, \frac{\pi}{6} \right)\] .
Also,
\[f\left( \frac{\pi}{6} \right) = f\left( 0 \right) = 0\]
Thus,
\[f\left( x \right)\] satisfies all the conditions of Rolle's theorem.
Now, we have to show that there exists\[c \in \left( 0, \frac{\pi}{6} \right)\] such that \[f'\left( c \right) = 0\] .
\[f\left( x \right) = \frac{6x}{\pi} - 4 \sin^2 x\]
\[ \Rightarrow f'\left( x \right) = \frac{6}{\pi} - 8 \sin x \cos x\]
\[\therefore f'\left( x \right) = 0\]
\[ \Rightarrow \frac{6}{\pi} - 8\sin x\cos x = 0\]
\[ \Rightarrow \sin2x = \frac{3}{2\pi}\]
\[ \Rightarrow x = \frac{1}{2} \sin^{- 1} \left( \frac{3}{2\pi} \right)\]
Thus,
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