How do I extract a particular value in a 'bvp4c' code solver?

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naygarp
naygarp el 22 de Abr. de 2018
Comentada: naygarp el 26 de Abr. de 2018
I have this bvp4c code for the following equations :
f"=g(g^2+gamma^2)/(g^2+lambda*gamma^2) ------ (1)
g'= (1/3)*f'^2-(2/3)*(f*f")+ Mn*f' ------------------------(2)
t"+Rd*t"+ 2*Pr*f*t'/3+ Nb*t'*p'+Nt*(t')^2= 0------(3)
p"+(2*Lew*f*p')/3+ Nt*t"/Nb= 0 ------------------------(4)
With boundary conditions:
f=0, f'=1, t=1, p=1; at η=0
f'=0, t=0, p=0; at η-->infinity
I have used bvp4c solver to solve it numerically
function sol= proj
clc;clf;clear;
global lambda gama Pr Rd Lew Nb Nt Mn m
%Nb=0.5;
gama=1;
Mn=1;
Rd=0.1;
Pr=1;
Nb=0.3;
Lew=10;
%lambda=1.5;
pp=0.5;
qq=[0.05:0.01:0.5];
%figure(1)
%plot(2,1);hold on
options=bvpset('stats','on','RelTol',1e-9);
m=linspace(0,10);
solinit= bvpinit(m,[1,0,0,0,0,0,0]);
for i=1:numel(pp)
lambda=pp(i);
for i=1:numel(qq);
Nt=qq(i)
sol= bvp4c(@projfun,@projbc,solinit,options);
y1=deval(sol,0)
%y2=deval(y(6,:),0)
solinit= sol;
plot(sol.x,sol.y(6,:),'LineWidth',2);hold on
%legend('N_{b} = 0.1','N_{b} = 0.3','N_{b} = 0.5');
end
end
end
function f= projfun(x,y)
global lambda gama Pr Rd Lew Nb Nt Mn
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))+Mn*y(2)
y(5)
-(2*Pr*y(1)*y(5))/(3*(1+Rd)) - (Nb*y(5)*y(7))/(1+Rd) - (Nt*y(5)^2)/(1+Rd)
y(7)
-((2*Lew*y(1)*y(7))/3)+ (Nt/Nb)*((2*Pr*y(1)*y(5))/(3*(1+Rd)) + (Nb*y(5)*y(7))/(1+Rd) + (Nt*y(5)^2)/(1+Rd))];
end
function res= projbc(ya,yb)
res= [ya(1); ya(2)-1; ya(4)-1.0; ya(6)-1.0; yb(2); yb(4); yb(6)];
end
I want to extract the values of y(6,:) particularly
Using 'deval(sol,0)' gives all the values of the 'y' rows
Is there any command to extract the values of y(6,:) or y(4,:) in particular.

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Respuesta aceptada

MINATI
MINATI el 25 de Abr. de 2018
Try with this f0 = deval(sol,0); f0(4,:)
Best Wishes
  1 comentario
naygarp
naygarp el 26 de Abr. de 2018
Thanks, Pradyumna.
Could you please check, whether the above bvp4c code is correctly written, I mean the ODEfunction and the result obtained is correct.

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