# How do I put boundary conditions in 1D Heat Equation?

I am trying to solve a problem of 1D heat equation, where u[x,t] is the density of energy in a uni-dimensional bar, in the time t=0 all the energy is concentrated in the point x=0. I want to find solutions for a given time, like t= 64, 128,256, etc.

Code (I removed the comments because English is not my native language):

``````#include <stdio.h>
#include <math.h>

#define D 0.1
#define T 1024
#define tol 0.0000000000000001

int x,t;
double r,DE,u[T+1], ua[T-1];

main() {
u[0] = 1;
for(x=1; x<=T;x++)
u[x] = 0;
t=0;
do {
t++;
for(x=0; x<=t; x++)
ua[x] = u[x];
u[0] = ua[0] + 2*D*(ua[1]-ua[0]);
for(x=1; x<=t; x++)
u[x] = ua[x] + D*(ua[x+1]-2*ua[x]+ua[x-1]);
} while(t<T);
DE = 0.0;

for(x=0; x<=t; x++) {
if(u[x]>tol) {
printf("\n %d %1.20f", x,u[x]);
DE += x*x*u[x];
} else
break;
}
printf("Delta(t=%d) = %20.20f", t, sqrt(2*DE));
}
``````

Plotting the data result in the "A" graph:

And I want something like "B".

How do I put the boundary conditions in the code to give me the second graph?

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Wouldn't it make more sense to initialize `u[T/2] = 1;` for a distribution like the second graph? –  Brett Hale Aug 7 '13 at 18:37