Difference between revisions of "Manuals/calci/BESSELJ"

Revision as of 22:32, 1 December 2013

BESSELJ(x,n)

This function gives the value of the modified Bessel function.
Bessel functions is also called Cylinder Functions because they appear in the solution to Laplace's equation in cylindrical coordinates.
Bessel's Differential Equation is defined as: $x^{2}{\frac {d^{2}y}{dx^{2}}}+x{\frac {dy}{dx}}+(x^{2}-\alpha ^{2})y=0$

where $\alpha$ is the Arbitrary Complex Number.

$Jn(x)=\sum _{k=0}^{\infty }{\frac {(-1)^{k}}{k!\Gamma (n+k+1)}}.({\frac {x}{2}})^{n+2k}$

where $\Gamma (n+k+1)=(n+k)!<math>or*\int \limits _{0}^{\infty }x^{n+k}*e^{-x}dxisthegammafunction.*Thisfunctionwillgiveresultaserrorwhen1.<math>x$ or $n$ is non numeric

2.  $n<0$ , because  $n$  is the order of the function

BESSELJ(2,3)=0.12894325(EXCEL)Jn(x)=0.10728467204(calci)J1(x)0.5767248079(Actual)J1(x)
BESSELJ(7,2)=-0.301417224(EXCEL)Jn(x)=NAN(calci)=-0.0046828257(Actual)J1(x)
BESSELJ(5,1)=-0.327579139(EXCEL)Jn(x)=NAN(calci)

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 *The solutions of this equation are called Bessel Functions of order n.
 *Bessel functions of the first kind, denoted as <math>Jn(x)</math>
-*The Bessel function of the first kind of order can be expressed as: <math>Jn(x)=\sum_{k=0}^\infity){(-1)^k(x/2)^n+2k}/k!gamma(n+k+1)</math>, where gamma(n+k+1)=(n+k)! or                                                                       *Integral 0 to infinity  x^(n+k).e^-x dx. is the gamma function.
+*The Bessel function of the first kind of order can be expressed as:
-*This function will give the result as error when 1.x or n is non numeric 2. n<0, because n is the order of the function
+<math>Jn(x)=\sum_{k=0}^\infty \frac{(-1)^k}{k!\Gamma(n+k+1)}.(\frac{x}{2})^{n+2k}</math>
+*where <math>\Gamma(n+k+1)=(n+k)!<math> or
+*\int\limits_{0}^{\infty} x^{n+k}*e^{-x} dx is the gamma function.
+*This function will give result as error when
+. <math>x</math> or <math>n</math> is non numeric
+. <math>n<0</math>, because <math>n</math> is the order of the function
 ==Examples==