The function $f(x) = [x] \cos \left(\frac{2x-1}{2}\right) \pi$, [.] denotes the greatest integer function, is discontinuous at
- All x
- All integer points
- No x
- x which is not an integer
The Correct Option is C
Solution and Explanation
$\therefore \, f(x) $ is continuous on all non integral points.
For $x = n \in I $
$\displaystyle \lim_{x \to n^{-}} f\left(x\right) =\displaystyle \lim_{x \to n^{-}} \left[x\right]\cos\left(\frac{2x-1}{2}\right) \pi $
$=\left(n-1\right) \cos \left(\frac{2-1}{2}\right) \pi= 0$
$\displaystyle \lim_{x \to n^{+}} f\left(x\right) =\displaystyle \lim_{x \to n^{+}} \left[x\right]\cos\left(\frac{2x-1}{2}\right) \pi$
$ = n \cos\left(\frac{2n-1}{2}\right) \pi= 0$
Also $ f\left(n\right) = n \cos \frac{\left(2n-1\right)\pi}{2} = 0 $
$\therefore \, f $ is continuous at all integral pts as well.
Thus, $f$ is continuous everywhere.
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Concepts Used:
Continuity
A function is said to be continuous at a point x = a, if
limx→a
f(x) Exists, and
limx→a
f(x) = f(a)
It implies that if the left hand limit (L.H.L), right hand limit (R.H.L) and the value of the function at x=a exists and these parameters are equal to each other, then the function f is said to be continuous at x=a.
If the function is undefined or does not exist, then we say that the function is discontinuous.
Conditions for continuity of a function: For any function to be continuous, it must meet the following conditions:
- The function f(x) specified at x = a, is continuous only if f(a) belongs to real number.
- The limit of the function as x approaches a, exists.
- The limit of the function as x approaches a, must be equal to the function value at x = a.