Category Archives: Identities

N.L.R. Rojas and E.A. Galapon, “Terminating Poincare asymptotic expansion of the Hankel transform of entire exponential type functions,” arXiv:2409.10948

By Eric A. Galapon | September 19, 2024

We perform an asymptotic evaluation of the Hankel transform, $\int_0^{\infty}J_{\nu}(\lambda x) f(x)\mathrm{d}x$, for arbitrarily large $\lambda$ of an entire exponential type function, $f(x)$, of type $\tau$ by shifting the contour of integration in the complex plane. Under the situation that $J_{\nu}(\lambda x)f(x)$ has an odd parity with respect to $x$ and the condition that the… Read More »

Happy Pi day!

By Eric A. Galapon | March 14, 2024

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\begin{equation*} \pi=\int_{-\infty}^{\infty} \frac{\Gamma(\pi)^2}{\Gamma(\pi+x) \Gamma(\pi-x)}\frac{\sin\pi x}{x}\,\mathrm{d}x \end{equation*}

A family of integral representations for the reciprocal of Pi

By Eric A. Galapon | May 11, 2022

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Theorem 1. The reciprocal of $\pi$ assumes the following family of integral representations \begin{equation} \frac{1}{\pi}= \frac{\left[\prod_{k=1}^{m+n}(2k-1)\right]^2 \lambda^{2m+1}}{(2m)!\, 2^{4m+2n}} \int_0^{\infty} \frac{x^{2m} J_{2m+1}(\lambda x)}{\Gamma\left(m+ n+\frac{1}{2} + x\right) \Gamma\left(m+n+\frac{1}{2}-x\right)}\,{\rm d}x \end{equation} \begin{equation} \frac{1}{\pi}= \frac{\left[\prod_{k=1}^{m+n}(2k-1)\right]^2 \lambda^{2m+2}}{(2m+1)!\, 2^{4m+2n+1}} \int_0^{\infty} \frac{x^{2m+1} J_{2m+2}(\lambda x)}{\Gamma\left(m+n+ \frac{1}{2} + x\right) \Gamma\left(m+n+\frac{1}{2}-x\right)}\,{\rm d}x \end{equation} for $m=0, 1, 2, \dots$, $n=1, 2, 3,\dots$ and $\lambda\geq\pi$, where $J_n(x)$… Read More »

Math hack: Souped-up integration by parts

By Eric A. Galapon | December 28, 2018

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Integrals are a mainstay in physics. Sooner or later we will have to evaluate an integral and when one arises its either we pick up the venerable Table of Integrals, Series, and Products by Gradhsteyn and Ryzhik (GR) or tap our keyboards and let Mathematica or Maple do the integration for us. We are lucky… Read More »

An absolute beauty

By Eric A. Galapon | August 26, 2017

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\begin{equation*} \int_{-\infty}^{\infty} \frac{\sin\pi x}{\Gamma\!(\pi-x) \Gamma\!(\pi+x)}\, \frac{\mathrm{d}x}{x}= \frac{\pi}{\Gamma\!(\pi)^2} \end{equation*}

The analytic principal value by way of the Cauchy-Plemelj-Fox theorem

By Eric A. Galapon | May 5, 2016

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In the publication found here or here, I introduced the concept of analytic principal value (APV) to allow meaningful assignment of values to the class of divergent integrals given by \begin{equation}\label{divergent} \int_a^b\frac{f(x)}{(x-x_0)^{n+1}}\mathrm{d}x, \; \; n=0, 1, 2, \dots . \end{equation}with $f(x_0)\neq 0$. The basic assumption in the definition of the APV is that the function… Read More »

I think this one is beautiful

By Eric A. Galapon | September 14, 2015

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Beauty is one of those abstractions that is difficult to define or quantify. But we know it when we see one. I arrived at the following integral trying to make sense of some divergent integrals: \begin{equation} \frac{1}{2}\int_{-\infty}^{\infty} \left(\cos\left(\frac{t^{-1}-t}{2}\right) – t \sin\left(\frac{t^{-1}-t}{2}\right)\right) (1+t^2)^{-1} \, \mbox{d}t = \frac{\pi}{\mbox{e}} .\nonumber \end{equation} There is manifest symmetry in the integrand… Read More »