Unable to solve the collocation equations -- a singular Jacobian encountered.

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Farooq Aamir
Farooq Aamir el 27 de En. de 2024
Editada: Torsten el 27 de En. de 2024
function Sc_1
% Define constants
phi = 0.02;
R_s = 1738;
R_f = 1053;
S_s = 230000000;
S_f = 0.18;
Cp_s = 1046.7;
Cp_f = 3594;
K_s = 156;
K_f = 0.492;
We = 0.3;
Ha = 0.3;
A = 0.1;
Pr = 4;
Q_star = 0.1;
Ec = 0.1;
s_1 = 0.1;
Sc = 0.3;
s_2 = 0.1;
Kr = 0.2;
s_3 =0.1;
Lb = 0.3;
Pe = 0.1;
delta_1 = 0.1;
k_prime = 0.2;
k_2prime = 0.1;
M_0 = 0.6;
alpha = pi/2;
n = -0.803;
B_2 = (1 - phi)^-2.5;
B_1 = (1-phi)+phi*(R_s/R_f);
B_4 = ((1-phi)+phi*((R_s*Cp_s)/(R_f*Cp_f)));
B_3 = ((S_s+2*S_f)-2*phi*(S_f-S_s))/((S_s+2*S_f)+phi*(S_f-S_s));
B_5 = ((K_s+2*K_f)-2*phi*(K_f-K_s))/((K_s+2*K_f)+phi*(K_f-K_s));
% Solve the BVP
% Create an options structure with specified tolerances and a Jacobian function
x = linspace(0, 1, 10);
options = bvpset('RelTol',1e-6,'AbsTol',1e-6);
solinit = bvpinit(x, [1 1 1 0 0 0 0 0 0]);
sol = bvp4c(@bvpexam2, @bcfun, solinit, options);
x_vals = sol.x;
y_vals = sol.y;
% Plot the solutions
figure(1);
plot(x_vals, y_vals(2,:), 'LineWidth', 1.3);
hold on; % Keep the plot for next iterations
figure(2);
plot(x_vals, y_vals(4,:), 'LineWidth', 1.3);
hold on; % Keep the plot for next iterations
figure(3);
plot(x_vals, y_vals(6,:), 'LineWidth', 1.3);
hold on; % Keep the plot for next iterations
figure(4);
plot(x_vals, y_vals(8,:), 'LineWidth', 1.3);
hold on; % Keep the plot for next iterations
% Boundary and ODE functions
function res = bcfun(ya, yb)
res = [Pr*ya(1) + (B_5/B_1)*M_0*ya(5)-0;
ya(2) - 1;
ya(4)+k_prime*ya(5)-0;
ya(6)+k_2prime*ya(7)-0;
ya(8)-0;
yb(2) - A;
yb(4) - (1 - s_1);
yb(6) - (1 - s_2);
yb(8) - (1 - s_3)];
end
function ysol = bvpexam2(x, y)
yy1 = (B_1*(y(2)^2 - y(1) * y(2)) + B_3*sin(alpha)^2*Ha*(y(2)-A) - A^2)/(B_2 + (3*(n- 1)/2)*B_2*We*y(3)*y(3));
yy2 = ((Pr*B_4)*(s_1*y(2) + y(2)*y(4) - y(1)*y(5)) ...
- B_2*Pr*Ec*((y(3))^2)*((1+(3*(n-1)/2))*We*(y(3))^2) + Q_star*(y(4)+s_1) ...
- B_3*Ha*Ec*Pr*((sin(alpha))^2)*((y(2) - A)^2))/B_5;
yy3 = Sc*(y(2)*y(6) + s_2*y(2) - y(1)*y(7)) - Kr*(y(6)+ 1/s_2);
yy4 = Lb*(y(8)+s_3) - Lb*y(9) + Pe*(y(9)*y(7) + (y(8)+delta_1+s_3));
ysol= [y(2); y(3); yy1; y(5); yy2; y(7); yy3; y(8); yy4];
end
end
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Farooq Aamir
Farooq Aamir el 27 de En. de 2024
@Torsten Still I have the same issue, Yes they are same.
Torsten
Torsten el 27 de En. de 2024
Editada: Torsten el 27 de En. de 2024
There can be many reasons that your code fails with this error message.
Mostly, it's due to programming errors, wrong parameter values or bad initial guesses for the functions.

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