Difference between revisions of "Bessel Y"

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Bessel functions (of the second kind) $Y_{\nu}$ are defined via the formula
 
Bessel functions (of the second kind) $Y_{\nu}$ are defined via the formula
 
$$Y_{\nu}(z)=\dfrac{J_{\nu}(z)\cos(\nu \pi)-J_{-\nu}(z)}{\sin(\nu \pi)}.$$
 
$$Y_{\nu}(z)=\dfrac{J_{\nu}(z)\cos(\nu \pi)-J_{-\nu}(z)}{\sin(\nu \pi)}.$$
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<div align="center">
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<gallery>
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File:Bessel y plot.png|Graph of $Y_0,Y_1,\ldots,Y_5$ on $[0,20]$.
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File:Complex bessel y sub 0.png|[[Domain coloring]] of [[analytic continuation]] of $Y_0(z)$.
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</gallery>
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</div>
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=Properties=
 
=Properties=

Revision as of 23:35, 19 May 2015

Bessel functions (of the second kind) $Y_{\nu}$ are defined via the formula $$Y_{\nu}(z)=\dfrac{J_{\nu}(z)\cos(\nu \pi)-J_{-\nu}(z)}{\sin(\nu \pi)}.$$


Properties

  1. REDIRECT Bessel J and Y solve Bessel's differential equation
<center>Bessel functions
</center>