how to set MATLAB code for velocity slip and temperature slip boundary condition for kelller box method please help me out
at eta=0, f(eta)=0, f^'(eta)=SF*f^''(eta), theta=1+ST*theta^'(eta)
at eta=infinite, f^'=0, theta=0
Can anybody help me to code boundary conditions in MATLAB for Keller Box Method?
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Can anybody help me to code boundary conditions in MATLAB for Keller Box Method?
f^'=1,f=S,θ^'=-r_1 [1+θ],ϕ^'=-r_2 [1+ϕ] at η=0
f^'=0,f^''=0,θ=0,ϕ=0 as η→∞
Risposte (2)
Mrutyunjaya Hiremath
il 6 Ago 2023
% Define parameters
r_1 = 0.1;
r_2 = 0.2;
S = 2.0;
% Define the differential equations
% y(1) = f, y(2) = f', y(3) = θ, y(4) = ϕ
ode_system = @(eta, y) [y(2); 1; y(3); y(4)];
% Define the boundary conditions at η = 0
initial_conditions = [S, 1, 0, 0];
% Define the boundary conditions at η → ∞
eta_infinity = 100; % Choose a large value
final_conditions = [0, 0, 0, 0];
% Solve the differential equations
[eta, result] = ode45(ode_system, [0, eta_infinity], initial_conditions);
% Extract the solutions
f = result(:, 1);
f_prime = result(:, 2);
theta = result(:, 3);
phi = result(:, 4);
% Plot the solutions
subplot(2, 2, 1);
plot(eta, f);
xlabel('η');
ylabel('f');
title('f vs. η');
subplot(2, 2, 2);
plot(eta, f_prime);
xlabel('η');
ylabel("f'");
title("f' vs. η");
subplot(2, 2, 3);
plot(eta, theta);
xlabel('η');
ylabel('θ');
title('θ vs. η');
subplot(2, 2, 4);
plot(eta, phi);
xlabel('η');
ylabel('ϕ');
title('ϕ vs. η');
7 Commenti
Torsten
il 7 Ago 2023
It should be clear that we won't program this for you.
If you have a boundary value problem as above, you can use the MATLAB tools "bvp4c" or "bvp5c".
If your problem is an assignment, you will have to start programming it in MATLAB or make a google search whether you find a MATLAB code that fits your needs.
Thiripura Sundari
il 27 Set 2024
Good evening Professor, Shall we give matlab bvp4c code in jeffrey fluid thank you.
Santosh Devi
il 27 Feb 2024
f^''' (η)+ff^'' (η)-(f^' (η))^2+Mf^' (η)-λf(η)=0
■θ^'' (η)+Pr[f(η)θ^' (η)-b/(u_w^2 ) ηθ(η)+Ec(f^'' (η))^2+Q_0 θ(η)]=0
■ϕ^'' (η)+Sc[f(η) ϕ^' (η)-Kϕ(η)]=0
■f(0)=s,f^' (0)=1,θ(0)=1,ϕ(0)=1
■f^' (∞)→0,θ(∞)→0,ϕ(∞)→0
5 Commenti
Thiripura Sundari
il 22 Ott 2024
Good afternoon Professor, can please give fourth order jeffrey fluid using keller box method
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