I am not getting multiple graphs(iterative) when I run the code for a coupled bvp ODE using bvp4c

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Two ODEs are:
F"=G(G^2+gamma^2)/(G^2+lambda*gamma^2)
G'= 1/3F'^2-2/3(F*F")
subject to: F(xi)=alpha/2, F'(xi)=1 at xi=0 where 'alpha' is a parameter (wall parameter)
F'(xi)= 0 as xi tends to infinity
I should be getting a multiple graphs varying the parameter ' alpha'
The code that I have run is:
function sol= proj
clc;clf;clear;
global lambda gama alp
lambda=0.5;
gama=1;
pp=[0:0.5:1.0];
figure(1)
plot(2,1);
solinit= bvpinit([0:0.01:10],[0,1,0]);
for alp= pp
sol= bvp4c(@projfun,@projbc,solinit);
solinit= sol;
plot(2,1);plot(sol.x,sol.y(2,:))
end
end
function f= projfun(x,y)
global lambda gama
f= [y(2);y(3)*(y(3)^2+gama.^2)/(y(3)^2+lambda*gama.^2);y(2)^2/3-(2*y(1)*y(3)*(y(3)^2+gama.^2))/(3*(y(3)^2+lambda*gama.^2))];
end
function res= projbc(ya,yb)
global alp
res= [ya(1)-alp/2; ya(2)-1.0; yb(2)];
end

Respuesta aceptada

Torsten
Torsten el 6 de Dic. de 2017
https://de.mathworks.com/help/matlab/ref/hold.html
Best wishes
Torsten.
  21 comentarios
Torsten
Torsten el 13 de Dic. de 2017
Yes, it's really alarming how much erroneous results are published under the pressure to "publish or perish".
Best wishes
Torsten.
naygarp
naygarp el 14 de Dic. de 2017
Yes after observing two research papers from well-known publishers, it's heartening to see how such details get missed. Anyway, thanks a lot for guiding me along.

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