Help solving a PDE using the Thomas algorithm (tridiagonal matrix).
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So I'm writing a script to solve for the following 1-D unsteady heat equation with the given boundary and initial conditions:
For the numerical simulation, it's required to use the following combined method:
To solve the solution above, it's necessary to use the Thomas algorithm.
Below shows the variable values during different "cases"
Here's the code I have so far. It gives me a matrix for the temperature T with only the initial condition and boundaries filled, the rest are zero. I need to solve for the remaining values.
Please help!
% Inputs
tend = 30; %time end
L = 10;
alpha = 2;
% Cases:
R = [1, 1, 1, 1, 1/2, 1/(sqrt(20))];
theta = [1, 3/4, 1/2, 5/12 ,1/3,(1/2)-(1/(12*R(6)))];
nx = 101;
for k = 1 % for 6 cases
r = R(k);
th = theta(k);
dx = L/(nx-1);
dt = r*dx^2/alpha;
x = (0:dx:L);
t = (0:dt:tend);
nt = length(t);
% Initialization
T = zeros(nx,nt);
% inital conditions
T(:, 1) = 100 * sin(pi*x/L);
% boundary conditions
T(1, :) = 0;
T(nx,:) = 0;
...
.
.
end
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