You have used clf....remove this
Why my graph only get one line?
1 view (last 30 days)
Show older comments
clear all
clc
clf
% Initial Value and time step
a = 0; % Lower limit of Integration from 21 Oct 2020
b = 700; % Upper limit of Integration at 20 Oct 2021
h = 0.5; % h = delta_x
n = ((b-a)/h); % no. of points
T = 70;
TT = 100;
tau0 = 2*10^-9;
tau1 = 1.41*10^-9;
alpha = 0.0005;
gamma1 = 1/10;%7.31;
gamma2 = 1/15;%0.11;
mu = 1/50;%1.26;
y10 = 8.18*10^7;
y20 = 5.0604*10^3;
y30 = 4.4876*10^3;
y40 = 4590;
y = zeros(n, 4);
x = zeros(n, 1);
y(1, :) = [y10; y20; y30; y40];
x(1) = a;
tau(1) = tau0;
fcn = @(x, y) [-tau(1) * y(1) * (y(2) + y(3)),...
alpha * tau(1) * y(1) * (y(2) + y(3)) - gamma1 * y(2),...
(1-alpha) * tau(1) * y(1) * (y(2) + y(3)) - ((gamma2 + mu) * y(3)),...
gamma1 * y(2) + gamma2 * y(3) ]; % system function
for i = 1:n-1
x( i + 1 ) = x(i) + h;
if (i >= 1) && (i < T);
tau(i) = tau0;
elseif (i >= T) && (i <= TT);
tau(i) = tau0*exp(-alpha*i);
else(i > TT);
tau(i) = tau1;
end
d1 = h * fcn(x(i), y(i, :));
d2 = h * fcn(x(i), y(i, :) + d1 / 2);
d3 = h * fcn(x(i), y(i, :) + d2 / 2);
d4 = h + fcn(x(i), y(i, :) + d3);
y(i+1, :) = y(i, :) + ((d1 + d2 + d3 + d4)* (h / 6));
end
figure(1)
plot(x,y(:,3),'blue')
hold on
%%%%%
clear all
clc
clf
% Initial Value and time step
a = 0; % Lower limit of Integration from 21 Oct 2020
b = 700; % Upper limit of Integration at 20 Oct 2021
h = 0.5; % h = delta_x
n = ((b-a)/h); % no. of points
T = 70;
TT = 100;
tau0 = 2*10^-9;
tau1 = 1.41*10^-9;
alpha = 0.01;
gamma1 = 1/10;
gamma2 = 1/15;
mu = 1/50;
y10 = 8.18*10^7;
y20 = 5.0604*10^3;
y30 = 4.4876*10^3;
y40 = 4590;
y = zeros(n, 4);
x = zeros(n, 1);
y(1, :) = [y10; y20; y30; y40];
x(1) = a;
tau(1) = tau0;
fcn = @(x, y) [-tau(1) * y(1) * (y(2) + y(3)),...
alpha * tau(1) * y(1) * (y(2) + y(3)) - gamma1 * y(2),...
((1-alpha) * tau(1) * y(1) * (y(2) + y(3))) - ((gamma2 + mu) * y(3)),...
gamma1 * y(2) + gamma2 * y(3) ]; % system function
for i = 1:n-1
x( i + 1 ) = x(i) + h;
if (i >= 1) && (i < T);
tau(i) = tau0;
elseif (i >= T) && (i <= TT);
tau(i) = tau0*exp(-alpha*i);
else(i > TT);
tau(i) = tau1;
end
d1 = h * fcn(x(i), y(i, :));
d2 = h * fcn(x(i), y(i, :) + d1 / 2);
d3 = h * fcn(x(i), y(i, :) + d2 / 2);
d4 = h + fcn(x(i), y(i, :) + d3);
y(i+1, :) = y(i, :) + ((d1 + d2 + d3 + d4)* (h / 6));
end
figure(1)
plot(x,y(:,3),'red')
hold on
%%%%%%%%%%%%%%%%%%
clear all
clc
clf
% Initial Value and time step
a = 0; % Lower limit of Integration from 21 Oct 2020
b = 700; % Upper limit of Integration at 20 Oct 2021
h = 0.5; % h = delta_x
n = ((b-a)/h); % no. of points
T = 70;
TT = 100;
tau0 = 2*10^-9;
tau1 = 1.41*10^-9;
alpha = 0.1;
gamma1 = 1/10;
gamma2 = 1/15;
mu = 1/50;
y10 = 8.18*10^7;
y20 = 5.0604*10^3;
y30 = 4.4876*10^3;
y40 = 4590;
y = zeros(n, 4);
x = zeros(n, 1);
y(1, :) = [y10; y20; y30; y40];
x(1) = a;
tau(1) = tau0;
fcn = @(x, y) [-tau(1) * y(1) * (y(2) + y(3)),...
alpha * tau(1) * y(1) * (y(2) + y(3)) - gamma1 * y(2),...
((1-alpha) * tau(1) * y(1) * (y(2) + y(3))) - ((gamma2 + mu) * y(3)),...
gamma1 * y(2) + gamma2 * y(3) ]; % system function
for i = 1:n-1
x( i + 1 ) = x(i) + h;
if (i >= 1) && (i < T);
tau(i) = tau0;
elseif (i >= T) && (i <= TT);
tau(i) = tau0*exp(-alpha*i);
else(i > TT);
tau(i) = tau1;
end
d1 = h * fcn(x(i), y(i, :));
d2 = h * fcn(x(i), y(i, :) + d1 / 2);
d3 = h * fcn(x(i), y(i, :) + d2 / 2);
d4 = h + fcn(x(i), y(i, :) + d3);
y(i+1, :) = y(i, :) + ((d1 + d2 + d3 + d4)* (h / 6));
end
figure(1)
plot(x,y(:,3),'cyan')
hold on
clear all
clc
clf
% Initial Value and time step
a = 0; % Lower limit of Integration from 21 Oct 2020
b = 700; % Upper limit of Integration at 20 Oct 2021
h = 0.5; % h = delta_x
n = ((b-a)/h); % no. of points
T = 70;
TT = 100;
tau0 = 2*10^-9;
tau1 = 1.41*10^-9;
alpha = 0.45;
gamma1 = 1/10;%7.31;
gamma2 = 1/15;%0.11;
mu = 1/50;%1.26;
y10 = 8.18*10^7;
y20 = 5.0604*10^3;
y30 = 4.4876*10^3;
y40 = 4590;
y = zeros(n, 4);
x = zeros(n, 1);
y(1, :) = [y10; y20; y30; y40];
x(1) = a;
tau(1) = tau0;
fcn = @(x, y) [-tau(1) * y(1) * (y(2) + y(3)),...
alpha * tau(1) * y(1) * (y(2) + y(3)) - gamma1 * y(2),...
((1-alpha) * tau(1) * y(1) * (y(2) + y(3))) - ((gamma2 + mu) * y(3)),...
gamma1 * y(2) + gamma2 * y(3) ]; % system function
for i = 1:n-1
x( i + 1 ) = x(i) + h;
if (i >= 1) && (i < T);
tau(i) = tau0;
elseif (i >= T) && (i <= TT);
tau(i) = tau0*exp(-alpha*i);
else(i > TT);
tau(i) = tau1;
end
d1 = h * fcn(x(i), y(i, :));
d2 = h * fcn(x(i), y(i, :) + d1 / 2);
d3 = h * fcn(x(i), y(i, :) + d2 / 2);
d4 = h + fcn(x(i), y(i, :) + d3);
y(i+1, :) = y(i, :) + ((d1 + d2 + d3 + d4)* (h / 6));
end
figure(1)
plot(x,y(:,3),'green')
hold on
clear all
clc
clf
% Initial Value and time step
a = 0; % Lower limit of Integration from 21 Oct 2020
b = 700; % Upper limit of Integration at 20 Oct 2021
h = 0.5; % h = delta_x
n = ((b-a)/h); % no. of points
T = 70;
TT = 100;
tau0 = 2*10^-9;
tau1 = 1.41*10^-9;
alpha = 0.5;
gamma1 = 1/10;%7.31;
gamma2 = 1/15;%0.11;
mu = 1/50;%1.26;
y10 = 8.18*10^7;
y20 = 5.0604*10^3;
y30 = 4.4876*10^3;
y40 = 4590;
y = zeros(n, 4);
x = zeros(n, 1);
y(1, :) = [y10; y20; y30; y40]; %
x(1) = a;
tau(1) = tau0;
fcn = @(x, y) [-tau(1) * y(1) * (y(2) + y(3)),...
alpha * tau(1) * y(1) * (y(2) + y(3)) - gamma1 * y(2),...
((1-alpha) * tau(1) * y(1) * (y(2) + y(3))) - ((gamma2 + mu) * y(3)),...
gamma1 * y(2) + gamma2 * y(3) ]; % system function
for i = 1:n-1
x( i + 1 ) = x(i) + h;
if (i >= 1) && (i < T);
tau(i) = tau0;
elseif (i >= T) && (i <= TT);
tau(i) = tau0*exp(-alpha*i);
else(i > TT);
tau(i) = tau1;
end
d1 = h * fcn(x(i), y(i, :));
d2 = h * fcn(x(i), y(i, :) + d1 / 2);
d3 = h * fcn(x(i), y(i, :) + d2 / 2);
d4 = h + fcn(x(i), y(i, :) + d3);
y(i+1, :) = y(i, :) + ((d1 + d2 + d3 + d4)* (h / 6));
end
figure(1)
plot(x,y(:,3),'yellow')
hold on
clear all
clc
clf
% Initial Value and time step
a = 0; % Lower limit of Integration from 21 Oct 2020
b = 700; % Upper limit of Integration at 20 Oct 2021
h = 0.5; % h = delta_x
n = ((b-a)/h); % no. of points
T = 70;
TT = 100;
tau0 = 2*10^-9;
tau1 = 1.41*10^-9;
alpha = 0.95;
gamma1 = 1/10;%7.31;
gamma2 = 1/15;%0.11;
mu = 1/50;%1.26;
y10 = 8.18*10^7;
y20 = 5.0604*10^3;
y30 = 4.4876*10^3;
y40 = 4590;
y = zeros(n, 4);
x = zeros(n, 1);
y(1, :) = [y10; y20; y30; y40];
x(1) = a;
tau(1) = tau0;
fcn = @(x, y) [-tau(1) * y(1) * (y(2) + y(3)),...
alpha * tau(1) * y(1) * (y(2) + y(3)) - gamma1 * y(2),...
((1-alpha) * tau(1) * y(1) * (y(2) + y(3))) - ((gamma2 + mu) * y(3)),...
gamma1 * y(2) + gamma2 * y(3) ]; % system function
for i = 1:n-1
x( i + 1 ) = x(i) + h; % Not: "x(i+1) = 1*h", but maybe: "i * h"
if (i >= 1) && (i < T);
tau(i) = tau0;
elseif (i >= T) && (i <= TT);
tau(i) = tau0*exp(-alpha*i);
else(i > TT);
tau(i) = tau1;
end
d1 = h * fcn(x(i), y(i, :));
d2 = h * fcn(x(i), y(i, :) + d1 / 2);
d3 = h * fcn(x(i), y(i, :) + d2 / 2);
d4 = h + fcn(x(i), y(i, :) + d3);
y(i+1, :) = y(i, :) + ((d1 + d2 + d3 + d4)* (h / 6));
end
figure(1)
plot(x,y(:,3),'magenta')
hold off
0 Comments
See Also
Categories
Find more on Gamma Functions in Help Center and File Exchange
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!
You can also select a web site from the following list
Americas
- América Latina (Español)
- Canada (English)
- United States (English)
Europe
- Belgium (English)
- Denmark (English)
- Deutschland (Deutsch)
- España (Español)
- Finland (English)
- France (Français)
- Ireland (English)
- Italia (Italiano)
- Luxembourg (English)
- Netherlands (English)
- Norway (English)
- Österreich (Deutsch)
- Portugal (English)
- Sweden (English)
- Switzerland
- United Kingdom (English)
Asia Pacific
- Australia (English)
- India (English)
- New Zealand (English)
- 中国
- 日本Japanese (日本語)
- 한국Korean (한국어)