Why Dsolve considers my equations' variables constants!?

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clear all
Nx = 2; % number of state equations
Nu = 1; % number of control parameters
% x = sym('x%d', [1 Nx]);
% p = sym('p%d', [1 Nx]);
syms u t
syms x p [1 Nx]
% State equations
Dx(1) = x(2);
Dx(2) = -x(2) + u(1);
% Cost function inside the integral
g = 0.5*u(1)^2;
% Hamiltonian
H = g;
for i = 1 : Nx
H = H + p(i)*Dx(i);
end
% Costate equations
for i = 1 : Nx
Dp(i) = -diff(H,x(i));
end
% solve for control u
du = diff(H,u);
sol_u = solve(du,u);
% Substitute u to state equations
for i = 1 : Nx
Dx(i) = subs(Dx(i),u,sol_u);
end
% convert symbolic objects to strings for using 'dsolve'
% need ti automate this solving
clear x p
syms x(t) p(t) [1 Nx]
eqx = diff(x,t)==Dx
eqx(t) = 
eqp = diff(p,t)==Dp
eqp(t) = 
eq = [eqx,eqp];
sol_h = dsolve(eqx,eqp);
  1 Comment
Ibrahim Bakry
Ibrahim Bakry on 11 Feb 2024
these are the final diff. equations:
eq = [diff(x1(t), t) == x2, diff(x2(t), t) == - p2 - x2, diff(p1(t), t) == 0, diff(p2(t), t) == p2 - p1]
the solution of dsolve is:
sol_h =
struct with fields:
x2: C2 - t*(p2 + x2)
x1: C1 + t*x2
p1: C3
p2: C4 - t*(p1 - p2)
But the answer should be like:
x2: (C3*exp(t))/2 - C4 + (C2*exp(-t))/2
x1: (C3*exp(t))/2 - C4*t - C1 - (C2*exp(-t))/2
p1: C4
p2: C4 - C3*exp(t)
I got the first solution by dsolve(eq) in my script, the second solution i got by dsolve(diff(x1(t), t) == x2, diff(x2(t), t) == - p2 - x2, diff(p1(t), t) == 0, diff(p2(t), t) == p2 - p1) in the workspace
Where is the ptoblem?

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Accepted Answer

Torsten
Torsten on 11 Feb 2024
syms t x1(t) x2(t) p1(t) p2(t)
eq = [diff(x1, t) == x2, diff(x2, t) == - p2 - x2, diff(p1, t) == 0, diff(p2, t) == p2 - p1]
eq(t) = 
dsolve(eq)
ans = struct with fields:
x2: (C3*exp(t))/2 - C4 + (C2*exp(-t))/2 x1: (C3*exp(t))/2 - C4*t - C1 - (C2*exp(-t))/2 p1: C4 p2: C4 - C3*exp(t)
  3 Comments
Torsten
Torsten on 11 Feb 2024
Edited: Walter Roberson on 11 Feb 2024
You cannot create arrays of symbolic functions in MATLAB, and this would be necessary if you wanted to proceed as you try in your code:

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