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Given the integral: $S=\int_{-a}^{a}\frac{\sin(ax)}{ax}$ I get from MAPLE this result: $\lim_{a\to \infty}S=0$ My question is: how can I prove this result? Thanks.

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    It's a sin to write `sin` instead of `\sin`. :-)2012-09-03

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By a change of variables, you can rewrite your integral above as

$S= \int_{-a^2}^{a^2} \frac{1}{a}\frac{\sin u}{u} du$

which we can rewrite as $\int_0^{a^2}\frac{2}{a} \frac{\sin u}{u} du = \frac{2}{a}\int_0^{a^2} \frac{\sin u}{u} du$

Now the limit of the integral as $a \rightarrow \infty $ is $\pi/2$ (this can be proved using knowledge of the Dirichlet Kernel and Riemann-Lebesgue), while the limit as $a \rightarrow \infty$ of $2/a$ is zero. Therefore the limit of $S$ as $a \rightarrow \infty$ is zero.

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    I was thinking that the interval of integration could be divided into pieces of length $\pi$, which gives the sum of alternating series whose terms tend to zero.2012-09-03