Difference between revisions of "Manuals/calci/BESSELI"

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<div style="font-size:30px">'''BESSELI(x,n)'''</div><br/>
 
<div style="font-size:30px">'''BESSELI(x,n)'''</div><br/>
*where 'x' is the value at which to evaluate the function and 'n' is the integer which is the order of the Bessel function
+
*<math>x</math> is the value to evaluate the function
 +
*<math>n</math> is an integer which is the order of the Bessel function.
 +
**BESSELI(), returns the modified Bessel Function In(x).
 +
 
 
==Description==
 
==Description==
 
*This function gives the value of the modified Bessel function.
 
*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 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 (d^2 y/dx^2) + x(dy/dx) + (x^2 - α^2)y =0
+
*Bessel's Differential Equation is defined as:
where α is the arbitary complex number.
+
<math>x^2 \frac{d^2 y}{dx^2} + x\frac{dy}{dx} + (x^2 - \alpha^2)y =0</math>
 +
where <math>\alpha</math> is the arbitrary complex number.
 
*But in most of the cases α is the non-negative real number.
 
*But in most of the cases α is the non-negative real number.
*The solutions of this equation are called Bessel Functions of order n.
+
*The solutions of this equation are called Bessel Functions of order <math>n</math>.
*Bessel functions of the first kind, denoted as Jn(x).  
+
*Bessel functions of the first kind, denoted as <math>J_n(x)</math>.  
*The n-th order modified Bessel function of the variable x is: In(x)=i^-nJn(ix) ,where Jn(x)=summation(k=0 to infinity){(-1)^k(x/2)^n+2k}/k!gamma(n+k+1).
+
*The <math>n^{th}</math> order modified Bessel function of the variable <math>x</math> is:  
*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.
+
<math>I_n(x)=i^{-n}J_n(ix)</math>,  
 +
where :
 +
<math>J_n(x)=\sum_{k=0}^\infty \frac{(-1)^k*(\frac{x}{2})^{n+2k} }{k!\Gamma(n+k+1)}</math>
 +
*This function will give the result as error when:
 +
1.<math>x</math> or <math>n</math> is non numeric
 +
2.<math>n<0</math>, because <math>n</math> is the order of the function.
 +
 
 +
==ZOS==
 +
*The syntax is to calculate BESSELI IN ZOS is <math>BESSELI(x,n)</math>.
 +
**<math>x</math> is the value to evaluate the function
 +
**<math>n</math> is an integer which is the order of the Bessel function.
 +
*For e.g.,BESSELI(0.25..0.7..0.1,42)
 +
 
 
==Examples==
 
==Examples==
  
*BESSELJ(2,3)=0.12894325(EXCEL)Jn(x)=0.10728467204(calci)J1(x)0.5767248079(Actual)J1(x)
+
#BESSELI(3,2) = 2.245212431 this is the <math>2^{nd}</math> derivative of <math>I_n(x)</math>.
*BESSELJ(7,2)=-0.301417224(EXCEL)Jn(x)=NAN(calci)=-0.0046828257(Actual)J1(x)
+
#BESSELI(5,1) = 24.33564185
*BESSELJ(5,1)=-0.327579139(EXCEL)Jn(x)=NAN(calci)
+
#BESSELI(6,0) = 67.23440724
 +
#BESSELI(-2,1) = -1.59063685
 +
#BESSELI(2,-1) = #N/A (ORDER OF FUNCTION < 0).
 +
 
 +
==Related Videos==
 +
 
 +
{{#ev:youtube|__fdGscBZjI|280|center|BESSEL Equation}}
  
 
==See Also==
 
==See Also==
*[[Manuals/calci/BESSELI | BESSELI ]]
+
*[[Manuals/calci/BESSELJ | BESSELJ ]]
 
*[[Manuals/calci/BESSELK  | BESSELK ]]
 
*[[Manuals/calci/BESSELK  | BESSELK ]]
 
*[[Manuals/calci/BESSELY  | BESSELY ]]
 
*[[Manuals/calci/BESSELY  | BESSELY ]]
  
 
==References==
 
==References==
[http://en.wikipedia.org/wiki/Absolute_value| Absolute_value]
+
[http://en.wikipedia.org/wiki/Bessel_function  Bessel Function]
 +
 
 +
 
 +
 
 +
*[[Z_API_Functions | List of Main Z Functions]]
 +
 
 +
*[[ Z3 |  Z3 home ]]

Latest revision as of 03:23, 18 November 2020

BESSELI(x,n)


  • is the value to evaluate the function
  • is an integer which is the order of the Bessel function.
    • BESSELI(), returns the modified Bessel Function In(x).

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 α is the non-negative real number.
  • The solutions of this equation are called Bessel Functions of order .
  • Bessel functions of the first kind, denoted as .
  • The order modified Bessel function of the variable is:

, where :

  • This function will give the result as error when:
1. or  is non numeric
2., because  is the order of the function.

ZOS

  • The syntax is to calculate BESSELI IN ZOS is .
    • is the value to evaluate the function
    • is an integer which is the order of the Bessel function.
  • For e.g.,BESSELI(0.25..0.7..0.1,42)

Examples

  1. BESSELI(3,2) = 2.245212431 this is the derivative of .
  2. BESSELI(5,1) = 24.33564185
  3. BESSELI(6,0) = 67.23440724
  4. BESSELI(-2,1) = -1.59063685
  5. BESSELI(2,-1) = #N/A (ORDER OF FUNCTION < 0).

Related Videos

BESSEL Equation

See Also

References

Bessel Function