Question:
The value of $\displaystyle\lim_{n \to \infty} \frac{1}{n} \left\{ \sec^2 \frac{\pi}{4 n} + \sec^2 \frac{2 \pi }{4n} + ..... \sec^2 \frac{n \pi}{4n} \right\}$ is
The value of $\displaystyle\lim_{n \to \infty} \frac{1}{n} \left\{ \sec^2 \frac{\pi}{4 n} + \sec^2 \frac{2 \pi }{4n} + ..... \sec^2 \frac{n \pi}{4n} \right\}$ is
Updated On: Apr 26, 2024
- $\log_e \, 2 $
- $\frac{\pi}{2}$
- $\frac{4}{\pi}$
- $e$
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The Correct Option is C
Solution and Explanation
We have, $\displaystyle\lim _{n \rightarrow \infty} \frac{1}{n}\left\{\sec ^{2} \frac{\pi}{4 n}+\sec ^{2} \frac{2 \pi}{4 n}+\ldots+\sec ^{2} \frac{n \pi}{4 n}\right\}$
$=\displaystyle\lim _{n \rightarrow \infty} \displaystyle\sum_{r=1}^{n} \frac{1}{n} \sec ^{2}\left(\frac{r \pi}{4 n}\right)=\int\limits_{0}^{1} \sec ^{2}\left(\frac{\pi x}{4}\right)$
$=\frac{4}{\pi}\left[\tan \left(\frac{\pi x}{4}\right)\right]_{0}^{1}$
$=\frac{4}{\pi} \times 1=\frac{4}{\pi}$
$=\displaystyle\lim _{n \rightarrow \infty} \displaystyle\sum_{r=1}^{n} \frac{1}{n} \sec ^{2}\left(\frac{r \pi}{4 n}\right)=\int\limits_{0}^{1} \sec ^{2}\left(\frac{\pi x}{4}\right)$
$=\frac{4}{\pi}\left[\tan \left(\frac{\pi x}{4}\right)\right]_{0}^{1}$
$=\frac{4}{\pi} \times 1=\frac{4}{\pi}$
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Concepts Used:
Limits of Trigonometric Functions
Assume a is any number in the general domain of the corresponding trigonometric function, then we can explain the following limits.
We know that the graphs of the functions y = sin x and y = cos x detain distinct values between -1 and 1 as represented in the above figure. Thus, the function is swinging between the values, so it will be impossible for us to obtain the limit of y = sin x and y = cos x as x tends to ±∞. Hence, the limits of all six trigonometric functions when x tends to ±∞ are tabulated below:
