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(A) $I.$ Consider the function $f(x) = -x^4$. Then $f'(x) = -4x^3$ and $f''(x) = -12x^2$.Here $f(x)$ has a maxima at $x = 0$ but $f''(0) = 0$. Thus,st

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exactly one statement is correct.

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(A) $I.$ Consider the function $f(x) = -x^4$. Then $f'(x) = -4x^3$ and $f''(x) = -12x^2$.Here $f(x)$ has a maxima at $x = 0$ but $f''(0) = 0$. Thus,statement $I$ is False.$II.$ Consider $f(x) = \cos x + 1$,which is periodic with period $2\pi$. However,$\int (\cos x + 1)\,dx = \sin x + x + C$,which is not a periodic function. Thus,statement $II$ is False.$III.$ For $\int\limits_0^T {f(x + a)\,dx}$,let $x + a = y$. Then the integral becomes $\int\limits_a^{a + T} {f(y)\,dy}$.Using the property of periodic functions $\int\limits_a^{a+T} f(y) dy = \int\limits_0^T f(y) dy$,this statement is True.$IV.$ The statement is true only if $f$ is continuous at $x = c$. Consider $f(x) = \begin{cases} x & 	ext{if } x > 0 \ 1 & 	ext{if } x = 0 \ -x & 	ext{if } x This function has a maxima at $x = 0$,but it does not satisfy the conditions stated in the problem (it is not increasing/decreasing in the neighborhood). Thus,statement $IV$ is False.Conclusion: Only statement $III$ is correct. Therefore,exactly one statement is correct.

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