In Fig.1 WE WANT TO VARY G : -1 to 2 (continuous range) in X-axis and M=0,1,2 AND In Fig.2 HOW TO FIND SECOND SOLUTION (LOWER BRANCH SOLUTION) for velocity profile

1 view (last 30 days)
MINATI
MINATI on 17 Feb 2019
Commented: MINATI on 19 Feb 2019
function main
Pr=1; K=1; G=0; L=-1; n=0.5; S=0.1;
% Pr=input('Pr=');
% K=input('K=');
% G=input('G=');
% L=input('L=');
% n=input('n=');
% S=input('S=');
xa=0;xb=6;
solinit=bvpinit(linspace(xa,xb,100),[0 1 0 1 0 0 1]);
sol=bvp4c(@ode,@bc,solinit);
xint=linspace(xa,xb,100);
sxint=deval(sol,xint);
function res=bc(ya,yb)
res=[ya(1)-S; ya(2)-L; ya(4)+n*ya(3); ya(6)-1; yb(2)-1; yb(4); yb(6);];
end
function dydx=ode(x,y)
dydx=[y(2); y(3); (y(2)^2-1-y(1)*y(3)-K*y(5)-G*(1-y(2)))/(1+K); y(5); 2*(y(2)*y(4)-y(1)*y(5)+K*(2*y(4)+y(3)))/(2+K); y(7); -Pr*y(1)*y(7)];
end
figure(1)
plot(xint,sxint([3],:),'Linewidth',2);
title('Fig.1 Variation of Skin friction coefficient C_{f}')
xlabel('\eta'); %%%%%HERE WE WANT TO VARY G : -1 to 2 (continuous range) in X-axis and M=0,1,2
ylabel('C_{f}');
hold on
figure(2)
plot(xint,sxint([2],:),'Linewidth',2);
xlabel('\eta'); %%% HOW TO FIND SECOND SOLUTION (LOWER BRANCH SOLUTION)
ylabel('f^\prime');
hold on

Sign in to answer this question.

Answers (0)

Categories

Find more on Modeling in Help Center and File Exchange

Tags

No tags entered yet.

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!