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Possible Duplicate:
Evaluating $\int_0^\infty \sin x^2\, dx$ with real methods?

How to calculate $\displaystyle\int_{0}^{+\infty} {\sin {x^2}\mathrm{d}x}$ ?

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    have a look at this [Wolfram Alpha Solution](http://www.wolframalpha.com/input/?i=integral%20from%200%20to%20infinity%20%28sin%20%28x%5E2%29%29)2012-09-21

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If you have some familiarity with complex analysis, this hint may be helpful:

Recall the Gaussian integral, defined $\forall \alpha \in \mathbb{R}: \int_0^\infty e^{-\alpha x^2} dx = \sqrt{\frac{\pi}{4\alpha}}$.

Now consider $e^{ix^2} = \cos(x^2) + i \sin(x^2)$. Naively, what does the above result suggest about the value of $\int_0^\infty e^{ix^2} dx$? If we take real and imaginary parts of the integral and its value, what would we find?

Most importantly, what contour integral in $\mathbb{C}$ would justify this? (think geometrically about what branch and value was chosen to "compute" $\sqrt{\frac{1}{-i}}$.)