Pay attention to the fact that the if statement was removed from the code, and that instead the run was split into two pieces that pass in different T2 values. The mathematics used for ode45() is such that if you use two different branches of an if statement in a single call to ode45(), then there is a good chance that your code is wrong, and that you need to stop the integration at the boundary and then resume integration from where you left off.
% A, B, C matrices formed in terms of theta
commonvars = unique([symvar(A), symvar(B), symvar(C)]); %probably just theta
Afun = matlabFunction(A, 'vars', commonvars);
Bfun = matlabFunction(B, 'vars', commonvars);
Cfun = matlabFunction(C, 'vars', commonvars);
tspan1 = [0, 0.5]; T2_1 = 0;
tspan2 = [0.5, 1]; T2_2 = 7.31;
myfun1 = @(t,y)scriptname(t, y, T2_1, Afun, Bfun, Cfun);
myfun2 = @(t,y)scriptname(t, y, T2_2, Afun, Bfun, Cfun);
y0_1 = zeros(27, 1);
% ode solver
[t_1, y1] = ode45(myfun1, tspan1, y0_1);
y0_2 = y1(end,:);
[t_2, y2] = ode45(myfun2, tspan2, y0_2);
t = [t_1; t_2];
y = [y1; y2];
h = figure;
% plot
plot(t, y);
function dydt = scriptname(t, y, T2, Afun, Bfun, Cfun)
Wr = 2*pi*50;
p =2;
% evaluation of C (numerical) with theta = y(27)
Cn = Cfun(y(27));
for i=1:25
I(i,1)=y(i);
end
T1=1/2*p*I'*Cn*I
V=[cos(Wr*t);
cos(Wr*t+2.*pi/3.);
cos(Wr*t-2.*pi/3.);
zeros(21, 1);
0;
(T1-T2);
y(26)]
% evaluation of A and B (numerical) with theta = y(27)
An = Afun(y(27));
Bn = Bfun(y(27));
dydt = Bn\V-(An*y);
end
