Laplace equation using central difference

27 views (last 30 days)
Faraz Vossoughian
Faraz Vossoughian on 3 May 2020
Commented: darova on 4 May 2020
Hi im trying to program a code that solves laplace equation using central difference. I already set up the boundary condition that corresponds to b matrix in the code, however im having hard time coding the A matrix that contains all the coefficients that looks like following. The A and b are found in the for loop in the code.
close all
h = 1.25; %Try different values & find the order of accuracy
% Geometry & boundary conditions
xmin = 0.0; xmax = 40.0;
ymin = 0.0; ymax = 40.0;
% Boundary conditions (In this problem, all boundaries are isothermal)
Tl = 75; %left
Tr = 50; %right
Tb = 0; %bottom
Tt = 100; %top
% Mesh (h is given as input)
nx = (xmax-xmin)/h - 1; %number of interior nodes in x-direction
ny = (ymax-ymin)/h - 1; %number of interior nodes in y-direction
N = nx*ny; %total number of interior nodes
% Allocate memory for A and b (sparse matrix & vector).
A = sparse(N,N); b = sparse(N,1);
% A=zeros(N,N);
% b=zeros(N,1);
% Loop through all the interior nodes, and fill A & b.
for k=1:N
A(k,k) = 4; % the diagonal element, corresponding to Tij, is always 4
%In the following, we look at the four neighbours of (i,j) that are
%involved in the 5-point formula
i = mod(k-1,nx)+1; j = (k-i)/nx+1; %get (i,j) from k.
disp(i)
disp(j)
if i==1
b(k,1)=Tl;
elseif i==nx
b(k,1)=Tr;
elseif j==1
b(k,1)=Tb;
elseif j==ny
b(k,1)=Tt;
end
end
% Solve Ax = b for nodal temperature values
T = full(A\b);
% Output Temperature at a sensor location (10 cm, 10 cm)
i = (0.25*(xmax-xmin))/h;
j = (0.25*(ymax-ymin))/h;
Tsensor = T(nx*(j-1)+i);
fprintf('h = %e, T(%d,%d) = %e.\n', h, i, j, Tsensor);
% Visualization
figure
[X, Y] = meshgrid(xmin:h:xmax, ymin:h:ymax);
Tvis = zeros(size(X)); %just for visualization
Tvis(:,1) = Tl; Tvis(:,nx+2) = Tr; Tvis(1,:) = Tb; Tvis(ny+2,:) = Tt;
for j = 2:nx+1
for i = 2:ny+1
Tvis(i,j) = T((i-2)*nx + j-1);
end
end
h = surf(X,Y,Tvis);
colormap('hot');
view(0,90);
shading interp
%set(h,'edgecolor','k');
cb = colorbar; cb.Label.String = 'Temperature (C)';
xlabel('X (cm)')
ylabel('Y (cm)')
zlabel('Temperature (C)')
daspect([1 1 1]);
  3 Comments
Show 1 older comment
Faraz Vossoughian
Faraz Vossoughian on 4 May 2020
Hi darobva, my question is set up differently, im really having a hard time codeing the coefficient matrix (A). could you please help
for k=1:N
A(k,k) = 4; % the diagonal element, corresponding to Tij, is always 4
% In the following, we look at the four neighbours of (i,j) that are
% involved in the 5-point formula
i = mod(k-1,nx)+1; j = (k-i)/nx+1; %get (i,j) from k.
disp('ass')
if i==1
b(k,1)=Tl;
elseif i==nx
b(k,1)=Tr;
elseif j==1
b(k,1)=Tb;
elseif j==ny
b(k,1)=Tt;
end
% if j<ny-2
% r=3+(j-1)
% A(i,nx-r)=-1
% end
%
if i>1 && j>1
if i==j
A(j-1,i)=-1;
A(j,i+1)=-1;
A(j,i-1)=-1;
A(j+1,i)=-1;
end
end
end
darova
darova on 4 May 2020
Please look into the script i attached. Especially at these lines
for i = 2:m-1
for j = 2:n-1
ii = i + (j-1)*m;
A(ii,ii-1) = ci; % U(i-1,j)
A(ii,ii+1) = ci; % U(i+1,j)
A(ii,ii) = cij; % U(i,j)
A(ii,ii-m) = cj; % U(i,j-1)
A(ii,ii+m) = cj; % U(i,j+1)
end
end

Sign in to comment.

Sign in to answer this question.

Answers (0)

Categories

Find more on Structural Mechanics in Help Center and File Exchange

Tags

Products

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!