Numerical Methods for Partial Differential Equations

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Sergio Manzetti on 9 Mar 2018

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https://au.mathworks.com/matlabcentral/answers/387277-numerical-methods-for-partial-differential-equations

Edited: Sergio Manzetti on 9 Mar 2018

Hi, I am following this source for numerically solving an own PDE:

https://se.mathworks.com/matlabcentral/fileexchange/65212-numerical-methods-for-partial-differential-equations

Here, the file polarcPDE.m shows:

    close all;
  %clear all;
%Setting up the domain
r1 = 0;
r2 = 1;
th1 = 0;
th2 = 2*pi;
%Setting the step size
dr = 0.01;
dth = 2*pi/90;
dr2 = dr*dr;
dth2 = dth*dth;
r = r1+dr:dr:r2;
th = th1:dth:th2;
N = size(r,2) - 1;
M = size(th,2) - 1;
u2 = zeros(N+1,M+1);
usol = zeros(N+1,M+1);
for i = 1:M+1
    u2(N+1,i) = cos(2*th(i));
end
%Plotting mesh with BCs
[R,TH] = ndgrid(r,th);
[X,Y] = pol2cart(TH,R);
subplot(1,3,1);
mesh(X,Y,u2);
title('Domain with the Boundary condition cos(2*theta)');
for i=1:N+1
    u2(i,1) = r(i)*r(i);
    u2(i,M+1) = r(i)*r(i);
end
%To start the iteration loop
err = 1000;
%Number of iterations
k=0;
u = u2;
tol = 1e-6;
while err > tol
    for i = 2:N
        for j = 2:M
            rip = (r(i)+r(i+1))/2;
            rim = (r(i)+r(i-1))/2;
            term1 = (-1/(r(i)*dr2))*(rim*u(i-1,j) + rip*u(i+1,j));
            term2 = (-1/(r(i)*r(i)*dth2))*(u(i,j-1)+u(i,j+1));
            term3 = (-1/(r(i)*dr2))*(rip+rim) - 2/(r(i)*r(i)*dth2);
              u(i,j) = (term1+term2)/term3;
          end
      end
      err = max(max(abs(u-u2)));
      u2 = u;
      k = k+1;
  end
%Printing the exact solution profile
subplot(1,3,2);
mesh(X,Y,u2);
title('Approximate Solution');
for i = 1:N+1
    for j = 1:M+1
        usol(i,j) = r(i)*r(i)*cos(2*th(j));
    end
end
subplot(1,3,3);
mesh(X,Y,usol);
title('Exact solution');
error = max(max(abs(u2-usol)));
I am trying to use this layout to change the original PDE given in the information on top of the code, to fit this PDE:

However, there is a problem. I cannot find any place in the code where the respective polar PDE is actually given?

In any case, is it possible to change this code to fit the given PDE?

Some start- initial conditions are as follows:

u(x,0)=cos(x)
u(0,y)=cos(y)
u'(x,0)=-sin(x)

Thanks

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Torsten on 9 Mar 2018

Edited: KSSV on 9 Mar 2018

https://ocw.mit.edu/courses/aeronautics-and-astronautics/16-920j-numerical-methods-for-partial-differential-equations-sma-5212-spring-2003/lecture-notes/

or any other of the thousands of books on the numerical solution of partial differential equations.

Best wishes

Torsten.

Sergio Manzetti on 9 Mar 2018

Edited: Sergio Manzetti on 9 Mar 2018

Thanks! Unfortunately, nothing is given there about how to change the functional form to MATLAB codes for radial problems.

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