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% This script will carry out error analysis
R = 0.5; % 0.5Ohm
L = 0.0015; % 1.5mH
data_points = 10000;
% Go on for a time constant
time_constant = L/R;
step = time_constant/data_points;
T=150e-6; % 150us
f = 1/T;
w_c = 2*pi*f;
A = 6;
Vin = @(t) A*cos(w_c*t);
current_initial=0;
% e^m is the integratingn factor
m = 0.5/0.0015;
% Solution is made by multiplying by integrating factor and
% then integrating both sides
current_exact = @(t) 3/(m^2+w_c^2)*(2*m*cos(w_c*t) + 2*w_c*sin(w_c*t));
Vout_exact = @(t) Vin(t) - current_exact(t)*R;
[time_array, Vout_array] = ralston(R, L, Vin, current_initial, step, data_points*step);
for j=1:data_points
error_array(j) = Vout_exact(time_array(j)) - Vout_array(j);
% Vout_plot(j) = Vout_exact(time_array(j));
end
% plot(time_array, Vout_array);
% figure;
% plot(time_array, Vout_plot);
%
% max(Vout_plot-Vout_array)
loglog(time_array, error_array);
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