Question:
$ \underset{x\to 0}{\mathop{\lim }}\,\frac{1}{x}{{\sin }^{-1}}\left( \frac{2x}{1+{{x}^{2}}} \right) $ =
$ \underset{x\to 0}{\mathop{\lim }}\,\frac{1}{x}{{\sin }^{-1}}\left( \frac{2x}{1+{{x}^{2}}} \right) $ =
Updated On: Jun 23, 2024
- $ -2 $
- $ 0 $
- $ 2 $
- $ \infty $
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The Correct Option is C
Solution and Explanation
Put $ x=\tan \theta \Rightarrow \theta ={{\tan }^{-1}}x $
$ \therefore $ $ \underset{x\to 0}{\mathop{\lim }}\,\frac{1}{x}{{\sin }^{-1}}\left( \frac{2\,\tan \theta }{1+{{\tan }^{2}}\theta } \right) $
$ =\underset{x\to 0}{\mathop{\lim }}\,\frac{1}{x}\,{{\sin }^{-1}}(\sin 2\theta ) $
$ =\underset{x\to 0}{\mathop{\lim }}\,\frac{1}{x}\,.2\theta =\underset{x\to 0}{\mathop{\lim }}\,\frac{2{{\tan }^{-1}}x}{x} $
$ =2\times \underset{x\to 0}{\mathop{\lim }}\,\,\frac{{{\tan }^{-1}}x}{x} $
$ =2\times 1=2 $
$ \therefore $ $ \underset{x\to 0}{\mathop{\lim }}\,\frac{1}{x}{{\sin }^{-1}}\left( \frac{2\,\tan \theta }{1+{{\tan }^{2}}\theta } \right) $
$ =\underset{x\to 0}{\mathop{\lim }}\,\frac{1}{x}\,{{\sin }^{-1}}(\sin 2\theta ) $
$ =\underset{x\to 0}{\mathop{\lim }}\,\frac{1}{x}\,.2\theta =\underset{x\to 0}{\mathop{\lim }}\,\frac{2{{\tan }^{-1}}x}{x} $
$ =2\times \underset{x\to 0}{\mathop{\lim }}\,\,\frac{{{\tan }^{-1}}x}{x} $
$ =2\times 1=2 $
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Concepts Used:
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Mathematically, a limit is explained as a value that a function approaches as the input, and it produces some value. Limits are essential in calculus and mathematical analysis and are used to define derivatives, integrals, and continuity.
Limits Formula:
Derivatives of a Function:
A derivative is referred to the instantaneous rate of change of a quantity with response to the other. It helps to look into the moment-by-moment nature of an amount. The derivative of a function is shown in the below-given formula.
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