%% EULER METHOD %% 

%% Writen for x'=f(x) with f(x)=-x and x(0)=x0 %%

dt=.1;

x0=1;

t0=0;

endtime=1;

t=0:dt:endtime;

N=(endtime-t0)/dt;

x(1)=x0;

for n=1:N

    x(n+1)=x(n)-dt*x(n)

end

plot(t,x,'k')

hold on

%% END EULER METHOD %%

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% For our simple example we can find the real solution:

A=x0; %Define the constant

x_realsoln_final=A*exp(-endtime); %The solution at the last step to calculate error

x_real=A.*exp(-1.*t); %The general Solution

plot(t,x_real,'b')

hold off

Error=abs(x_realsoln_final-x(N+1)) %In this case the error the difference between the real and numerical solutions.

% In general you would skip the step above because you do not know the real solution!

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