Bessel functions: Difference between revisions
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=== Bibliography === | === Bibliography === | ||
Weisstein, Eric W.<br/> | |||
"Bessel Function of the First Kind."<br/> | |||
From MathWorld--A Wolfram Web Resource.<br/> | |||
http://mathworld.wolfram.com/BesselFunctionoftheFirstKind.html | |||
“Introduction to Bessel Functions”<br/> | |||
by Frank Bowman<br/> | |||
Dover Publications, Inc.<br/> | |||
New York<br/> | |||
1958 | |||
“A Treatise on the Theory of Bessel Functions”<br/> | |||
by G. N. Watson<br/> | |||
Second Edition<br/> | |||
Cambridge University Press<br/> | |||
1966 | |||
Revision as of 16:18, 6 September 2010
Bessel functions are solutions of the Bessel differential equation:
Failed to parse (syntax error): {\displaystyle ''z''<sup>2</sup> (d<sup>2</sup>w/dz<sup>2</sup>) + z (dw/dz) + (z<sup>2</sup> - α<sup>2</sup>)}
where α is a constant.
Because this is a second-order differential equation, it should have two linearly-independent solutions:
(i) Jα(x) and
(ii) Yα(x).
In addition, a linear combination of these solutions is also a solution:
(iii) Hα = C1 Jα(x) + C2 Yα(x)
where C1 and C2 are constants.
These three kinds of solutions are called Bessel functions of the first kind, second kind, and third kind.
Applications
Bessel functions arise in many applications. For example, Kepler’s Equation of Elliptical Motion, the vibrations of a membrane, and heat conduction, to name a few.
Bibliography
Weisstein, Eric W.
"Bessel Function of the First Kind."
From MathWorld--A Wolfram Web Resource.
http://mathworld.wolfram.com/BesselFunctionoftheFirstKind.html
“Introduction to Bessel Functions”
by Frank Bowman
Dover Publications, Inc.
New York
1958
“A Treatise on the Theory of Bessel Functions”
by G. N. Watson
Second Edition
Cambridge University Press
1966