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How can draw this kind of graph?

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gkb on 13 Nov 2023

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Edited: DGM on 20 Nov 2023

how can we draw a velocity profile of the 3rd-order non-linear boundary value problem that converges for different values? give me code for u'''+u*u''+s*[Gr*G+Gm*H-M*u']=0 where s=0.02, Gm=10, Gr=4 and M=0.1 with boundary condition u=1,u'=0.001; G=0.001; H=0.001 when t=0 and u'=0; G-0; H=0 when t= infinity, where H=2 and G=4 within one graph for Different values of Gm

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Torsten on 13 Nov 2023

Use bvp4c or bvp5c to set up the problem.

Sam Chak on 13 Nov 2023

@gkb, I'm confused.

You only introduced ONE differential equation in the question.

where the parameters other than the state variables u,

,

, are constants.

Why do F, G, and H magically appear in the context? Can we settle the

first and then post another question for the system of differential equations F, G, H?

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Answers (1)

Syed Sohaib Zafar on 19 Nov 2023

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Edited: DGM on 20 Nov 2023

Open in MATLAB Online

Here's your required code

code_gkb_Matlab

%%%%%%%%%%%%%%%

function code_gkb_Matlab

global eps Gr Gm M Pr Jh Sc S0

%eq1

eps=0.001; Gr=0.5; M=0.5;

% eq2

Pr=1.4; Jh=0.3; %eps M

% eq3

Sc=0.7; S0=0.2;

val=[0.1 0.2 0.3 0.4];

for i = 1:1:4;

Gm = val(i);

solinit = bvpinit(linspace(0,6),[0 1 0 1 0 1 0]);

sol= bvp4c(@shootode,@shootbc,solinit);

eta = sol.x;

f = sol.y;

figure (1)

plot(eta,f(2,:));

xlabel( '\eta');

ylabel('\bf f'' (\eta)');

hold on

end

lgd=legend('Gm = 0.1','Gm = 0.2','Gm = 0.3','Gm = 0.4');

end

function dydx = shootode(eta,f);

global eps Gr Gm M Pr Jh Sc S0

dydx = [f(2)

f(3)

-f(1)*f(3)-eps*(Gr*f(4)+Gm*f(6)-M*f(2))

f(5)

-Pr*f(1)*f(5)+Jh*Pr*((1/eps)*f(3)^2+M*f(2)^2)

f(7)

2*Sc*f(2)*f(6)-Sc*f(1)*f(7)-S0*Sc*(-Pr*f(1)*f(5)+Jh*Pr*((1/eps)*f(3)^2+M*f(2)^2))

];

end

function res = shootbc(fa,fb)

global eps

res = [fa(1)-1; fa(2)-eps; fa(4)-eps; fa(6)-eps; fb(2)-0; fb(4)-0; fb(6)-0];

end

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DGM on 20 Nov 2023

Edited to add formatting and to make it run.

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