Effacer les filtres
Effacer les filtres

Numerical solution of Higher order differential equation using ODE45 and a m. archice

3 vues (au cours des 30 derniers jours)
Maria Cuellar
Maria Cuellar le 15 Fév 2020
Commenté : Sakib Javed le 30 Sep 2021
Hello I am trying to solve this:
u=sin(t)
First, I create the function as follow:
function f=f5(t,y,u)
u=sin(t)
uu=3*diff(u)+3*u
f=zeros(5,1)
f(1)=y(2)
f(2)=y(3)
f(3)=y(4)
f(4)=y(5)
f(5)=-uu-5*y(5)-12*y(4)-16*y(3)-12*y(2)-4*y(1)
end
Then I saved it and used the command window
[t,y]=ode45(@f5,[0 5],[0;0;0;0;0]);
But there is something wrong I haven't still found it, and the error message it is:
% Unable to perform assignment because the left and right sides have a different number of elements.
%
% Error in f5 (line 9)
% f(5)=-uu-5*y(5)-12*y(4)-16*y(3)-12*y(2)-4*y(1);
%
% Error in odearguments (line 90)
% f0 = feval(ode,t0,y0,args{:}); % ODE15I sets args{1} to yp0.
%
% Error in ode45 (line 115)
% odearguments(FcnHandlesUsed, solver_name, ode, tspan, y0, options, varargin);
If somebody could help me I apreciate it a lot
Thanjs

Connectez-vous pour répondre à cette question.

Réponse acceptée

James Tursa
James Tursa le 15 Fév 2020
Modifié(e) : James Tursa le 15 Fév 2020
t is a number, not a symbol. So u = sin(t) is a number, not a symbolic function. So doing diff(u) does diff on a single value, and the result is empty, hence the downstream errors.
Work out the sin(t) derivatives differently, this is simple enough to do manually. Also, you've got a 4th order differential equation, so you should only have a 4-element state vector, not a 5-element state vector. E.g., with these definitions:
y(1) = y
y(2) = y'
y(3) = y''
y(4) = y'''
you would have the following function:
function f = f5(t,y)
u = sin(t);
u1 = cos(t);
u2 = -u;
uu = 5*u2 + 4*u1 + 2*u;
f = zeros(4,1);
f(1) = y(2)
f(2) = y(3)
f(3) = y(4)
f(4) = uu - (10*y(4) + 35*y(3) + 50*y(2) + 24*y(1));
end
  1 commentaire
Sakib Javed
Sakib Javed le 30 Sep 2021
If y = Y1
y' = Y2
y'' = Y3
y''' = Y4
than
function dYdt = sample(t,Y)
u = sin(t);
u1 = cos(t);
u2 = -u;
uu = 5*u2 + 4*u1 +2*u;
Y1 = Y(1);
Y2 = Y(2);
Y3 = Y(3);
Y4 = Y(4);
dY1dt = Y2;
dY2dt = Y3;
dY3dt = Y4;
dY4dt = uu - (10*Y4 + 35*Y3 + 50*Y2 + 24*Y1);
dYdt = [dY1dt;dY2dt;dY3dt;dY4dt];
end

Connectez-vous pour commenter.

Plus de réponses (0)

Catégories

En savoir plus sur Numeric Solvers dans Help Center et File Exchange

Tags

Produits


Version

R2018a

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by