Difference between revisions of "Manuals/calci/BESSELY"

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*The solutions of this equation are called Bessel Functions of order <math>n</math>.
 
*The solutions of this equation are called Bessel Functions of order <math>n</math>.
 
*The Bessel function of the second kind <math>Yn(x)</math> and sometimes it is called Weber Function or the Neumann Function..
 
*The Bessel function of the second kind <math>Yn(x)</math> and sometimes it is called Weber Function or the Neumann Function..
*The Bessel function of the 2nd kind of order  can be expressed as: <math>Yn(x)= \lim_{p \to n}\frac{J_p(x)Cos(p\pi)- J_p(x)}{Sin(p\pi)}</math>
+
*The Bessel function of the 2nd kind of order  can be expressed as: <math>Yn(x)= \lim_{p \to n}\frac{J_p(x)Cos(p\pi)- J-_p(x)}{Sin(p\pi)}</math>
 
*where Jn(x) is the Bessel functions of the first kind.
 
*where Jn(x) is the Bessel functions of the first kind.
 
*This function will give the result as error when 1.x or n is non numeric2. n<0, because n is the order of the function
 
*This function will give the result as error when 1.x or n is non numeric2. n<0, because n is the order of the function

Revision as of 23:11, 1 December 2013

BESSELY(x,n)


  • Where is the value at which to evaluate the function
  • is the integer which is the order of the Bessel Function

Description

  • 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:

where is the arbitrary complex number.

  • But in most of the cases is the non-negative real number.
  • The solutions of this equation are called Bessel Functions of order .
  • The Bessel function of the second kind and sometimes it is called Weber Function or the Neumann Function..
  • The Bessel function of the 2nd kind of order can be expressed as:
  • where Jn(x) is the Bessel functions of the first kind.
  • This function will give the result as error when 1.x or n is non numeric2. n<0, because n is the order of the function

Examples

  1. BESSELY(2,3)=-1.127783765(EXCEL)Yn(x)=-0.1070324316(CALCI)Y1(x)
  2. BESSELY(0.7,4)=-132.6340573(EXCEL)Yn(x)=-1.1032498713(CALCI)Y1(x)
  3. BESSELY(9,1)=0.104314575
  4. BESSELY(2,-1)=NAN

See Also

References

Absolute_value