Integration symbiolic form in matlab gives error

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Anal
Anal am 7 Nov. 2024 um 10:22
Kommentiert: Anal vor etwa 3 Stunden
%here is my matlab script
Part_1=@(r,theta) 1+(2.*(1+r.*cos(theta))).^2;
W_i=@(r,theta) Part_1(r,theta).*(whittakerW(50, 0.5,(2.*(r))./(50)));
Matrix_element=(quad2d(W_i,0.5, 2000,0,pi));
This gives me error. What is the best way to solve this integration?

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Antworten (3)

Jaimin
Jaimin am 7 Nov. 2024 um 10:46
Hi @Anal
The error in your MATLAB script likely arises from the way you are using the whittakerW function and the quad2d function.
Ensure that the function handles you are using are properly vectorized. The quad2d function expects the integrand to accept arrays as inputs and return an array of outputs.
Make sure that the whittakerW function is available in your MATLAB environment. This function is part of the Symbolic Math Toolbox, so ensure you have it installed and the toolbox is loaded.
Kindly refer to the following code snippet for understanding.
% Define the function Part_1
Part_1 = @(r, theta) 1 + (2 .* (1 + r .* cos(theta))).^2;
% Define the function W_i, ensuring vectorization
W_i = @(r, theta) Part_1(r, theta) .* whittakerW(50, 0.5, (2 .* r) ./ 50);
% Perform the double integration using quad2d
Matrix_element = quad2d(W_i, 0.5, 2000, 0, pi);
% Display the result
disp(Matrix_element);
Kindly refer following MathWorks documentation for more information:
quad2d: https://www.mathworks.com/help/matlab/ref/quad2d.html
whittakerW: https://www.mathworks.com/help/symbolic/sym.whittakerw.html
I hope this will be helpful.
  1 Kommentar
Anal
Anal am 7 Nov. 2024 um 11:01
Hi, “whittakerW” function is availble in my Symbiolic math toolbox. I have previously used that. Still it is not working.

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Torsten
Torsten am 7 Nov. 2024 um 12:13
Bearbeitet: Torsten am 7 Nov. 2024 um 12:14
Ran in:
I think you will have big problems if you try to integrate a function with values in the order of +/- 1e70.
syms r theta
Part_1= 1+(2*(1+r*cos(theta)))^2;
W_i = Part_1*whittakerW(50,0.5,2*r/50);
M = int(W_i,theta,0,pi);
rad = 0.5:0.5:2000;
plot(rad,double(subs(M,r,rad)))
Star Strider
Star Strider am 7 Nov. 2024 um 12:55
Bearbeitet: Star Strider am 7 Nov. 2024 um 12:57
Ran in:
If you have R2012a or later, use the integral2 function instead —
Part_1=@(r,theta) 1+(2.*(1+r.*cos(theta))).^2;
W_i=@(r,theta) Part_1(r,theta).*(whittakerW(50, 0.5,(2.*(r))./(50)));
Matrix_element=(integral2(W_i,0.5, 2000,0,pi))
Matrix_element = -2.7744e+72
clearvars
syms r theta
Part_1(r,theta) = 1+(2*(1+r*cos(theta)))^2;
W_i(r,theta) = Part_1(r,theta).*(whittakerW(50, 0.5,(2*(r))/(50)));
Matrix_element=int(int(W_i,r,0.5, 2000), theta,0,pi)
Matrix_element = vpa(Matrix_element)
The symbolic results do not show up here after submitting the post.
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