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Line 1: In mathematics, the '''Bateman function''' (or ''k''-function) is a special case of the [[confluent hypergeometric function]] studied by [[~~Patrick~~Harry Bateman]](1931).<ref>{{Citation \| last1=Bateman \| first1=H. \| authorlink=Harry Bateman \| title=The k-function, a particular case of the confluent hypergeometric function \| doi=10.2307/1989510 \| mr=1501618 \| year=1931 \| journal=[[Transactions of the American Mathematical Society]] \| issn=0002-9947 \| volume=33 \| issue=4 \| pages=817–831\| jstor=1989510 }}</ref><ref>{{Springer\|id=B/b015360\|title=Bateman function}}</ref> Bateman defined it by :<math>\displaystyle ~~k_n~~k_\nu(x) = \frac{2}{\pi}\int_0^{\pi/2}\cos(x\tan\theta-n\nu\theta) \, d\theta .</math> [[Harry Bateman\|Bateman]] discovered this function, when [[Theodore von Kármán]] asked for the solution of the following differential equation which appeared in the theory of [[turbulence]]<ref>Martin, P. A., & Bateman, H. (2010). from Manchester to Manuscript Project. Mathematics Today, 46, 82-85. http://www.math.ust.hk/~machiang/papers_folder/http___www.ima.org.uk_mathematics_mt_april10_harry_bateman_from_manchester_to_manuscript_project.pdf</ref> :<math>x \frac{d^2u}{dx^2} = (x-n\nu) u</math> and Bateman found this function as one of the solutions. Bateman denoted this function as "TWk" function in honor of [[~~Tyrell~~Theodore ~~Wellick~~von Kármán]]. The Bateman function for <math>x>0</math> is the related to the [[Confluent hypergeometric function]] of the second kind as follows :<math>k_{\nu}(x)=\frac{e^{-x}}{\Gamma\left(1+\frac{1}{2}\nu\right)} U\left(-\frac{1}{2}\nu,0,2x\right), \quad x>0.</math> This is not to be confused with another function of the same name which is used in Pharmacokinetics. ==Havelock function== Complementary to the Bateman function, one may also define the Havelock function, named after [[Thomas Henry Havelock]]. In fact, both the Bateman and the Havelock functions were first introduced by Havelock in 1927,<ref>Havelock, T. H. (1927). The method of images in some problems of surface waves. Proceedings of the Royal Society of London. Series A, Containing Papers of a Mathematical and Physical Character, 115(771), 268-280.</ref> while investigating the surface elevation of the uniform stream past an immersed circular cylinder. The Havelock function is defined by :<math>\displaystyle h_\nu(x) = \frac{2}{\pi}\int_0^{\pi/2}\sin(x\tan\theta-\nu\theta) \, d\theta .</math> ==Properties== Line 19 ⟶ 28: <math>\|k_n(x)\|\leq 1</math> for real values of <math>n</math> and <math>x</math> <math>k_{2n}(x)=0</math> for <math>x<0</math> if <math>n</math> is a positive integer *<math>k_1(x) = \frac{2x}{\pi} [K_1(x) + K_0(x)], \ x<0</math>, where <math>K_n(-x)</math> is the [[Modified Bessel function of the second kind]]. ==References== {{Reflist\|30em}}