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I read the following from Chung's Probability:

($f$ is the characteristic function of some distribution function $F$) Suppose that $f''(0)$ exists and is finite, then we have $f''(0)=\lim\limits_{h \to 0}\frac{f(h)-2f(0)+f(-h)}{h^{2}}$

Could anyone help on how to show this? The problem is that we only assume $f$ is twice differentiable at the point 0. So we can't prove the above simply by Taylor's expansion.

Thank you very much!

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    you can apply L'Hospital once and then use definition of derivative.2014-06-05

1 Answers 1

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Taylor's theorem says that if $f$ is twice differentiable at $0$, $f(x) = f(0) + f'(0) x + f''(0) \frac{x^2}{2} + R(x) x^2$, where $R(x) \to 0$ as $x \to 0$. Apply this at $x=h$ and $x=-h$ and substitute: $\dfrac{f(h)- 2f(0) + f(-h)}{h^2} = f''(0) + R(h) + R(-h) \to f''(0)\ \text{as }\ h \to 0$

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    thank you! it turns out that my understanding of Taylor's theorem is not to the fullest.2012-11-12