solving differential equation for diffrent intial condition

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samee baig
samee baig il 14 Lug 2016
Commentato: samee baig il 14 Lug 2016
I am trying to solve differential equation for different initial conditions and plotting the result for each initial condition.i need help on writing a code using a loop to do the same and plotting the result against each initial condition. my current code is as below function xdot=fifteenstate2(t,x)
T=1;
v(1) =-x(1)-x(2)*x(3)-x(3)*x(4)-x(5)*x(6)-x(7)*x(8)-x(9)*x(10)-x(11)*x(12)-x(13)*x(14);
v(2) = -x(2);
v(3) =-x(5);
v(4) =-x(5)*x(6)-x(7);
v(5) =-x(9);
v(6) =-x(11);
v(7) =-x(13);
v(8) =x(3);
v(9) =x(6);
v(10) =x(8);
v(11) =x(10);
v(12) =x(12);
v(13) =x(14);
v(14) =x(4);
v=[v(1);v(2);v(3);v(4);v(5);v(6);v(7);v(8);v(9);v(10);v(11);v(12);v(13);v(14)];
%uu=[1;1;1;1;1;1;1];
d(1)=3.54491*sign(v(8))*sqrt(abs(v(8))/T);
d(2)=3.54491*sign(v(9))*sqrt(abs(v(9))/T);
d(3)=3.54491*sign(v(10))*sqrt(abs(v(10))/T);
d(4)=3.54491*sign(v(11))*sqrt(abs(v(11))/T);
d(5)=3.54491*sign(v(12))*sqrt(abs(v(12))/T);
d(6)=3.54491*sign(v(13))*sqrt(abs(v(13))/T);
d(7)=3.54491*sign(v(14))*sqrt(abs(v(14))/T);
d=[d(1);d(2);d(3);d(4);d(5);d(6);d(7)];
y(1)=sin((2*pi*t)/T); y(2)=cos((2*pi*t)/T);
y=[y(1);y(2)];
uu(1)=v(1)+d(1)*y(2)+d(2)*y(2)-d(3)*y(2)-d(4)*y(1)-d(5)*y(1)+d(6)*y(2);%+d(7)*y(1)+d(1)*d(7)*y(2)*y(2);
uu(2)=v(2)+d(1)*y(1);%-d(1)*d(7)*y(1)*y(2);
uu(3)=v(3)+d(2)*y(1);
uu(4)=v(4)+d(3)*y(1);
uu(5)=v(5)+d(4)*y(2);
uu(6)=v(6)+d(5)*y(2);
uu(7)=v(7)+d(6)*y(1);
uu=[uu(1);uu(2);uu(3);uu(4);uu(5);uu(6);uu(7)];
xdot(1)=uu(1); xdot(2)=uu(2); xdot(3)=x(2)*uu(1); xdot(4)=x(3)*uu(1); xdot(5)=uu(3); xdot(6)=x(5)*uu(1); xdot(7)=uu(4); xdot(8)=x(7)*uu(1); xdot(9)=uu(5); xdot(10)=x(9)*uu(1); xdot(11)=uu(6); xdot(12)=x(11)*uu(1); xdot(13)=uu(7); xdot(14)=x(13)*uu(1); xdot=xdot';
clear all close all clc
Tspan =linspace(0,100,500);
IC=[1;-3;2;-2;3;-4;1;-2;5;3;-2;-2;2;-3]; %options = odeset('RelTol',1e-2,'AbsTol',[1e-2 1e-2 1e-2 1e-2 1e-2 1e-2]); [T,Y] = ode45(@fifteenstate2, Tspan,IC)
x1 = Y(:,1); x2 = Y(:,2); x3 = Y(:,3); x4 = Y(:,4); x5 = Y(:,5); x6 = Y(:,6); x7 = Y(:,7); x8 = Y(:,8); x9 = Y(:,9); x10 = Y(:,10); x11 = Y(:,11); x12 = Y(:,12); x13 = Y(:,13); x14 = Y(:,14);
figure(1) plot(T,x1,T,x3,T,x4,T,x6,T,x8,T,x10,T,x12,T,x14,'linewidth',2) legend('x1','x3','x4','x6','x8','x10','x12','x14',8); xlabel('t(s)') ylabel('x_1,x_3,x_4,x_6,x_8,x_10,x_12,x_14') grid on
figure(2) plot(T,x2,T,x5,T,x7,T,x9,T,x11,T,x13,'linewidth',2) legend('x2','x5','x7','x9','x11','x13',6); xlabel('t(s)') ylabel('x_2,x_5,x_7,x_9,x_11,x_13') grid on
  2 Commenti
KSSV
KSSV il 14 Lug 2016
ok.....go ahead, do it.......is some thing objecting you?
samee baig
samee baig il 14 Lug 2016
yes,cannot seem to figure out how to write the code

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Mischa Kim
Mischa Kim il 14 Lug 2016
Samee, check out this answer. It does exactly what you are looking for.

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