Why i don not get the graph when i add A1(x) in the function f1=@(x,y) A1(x)+(1.33pietay^3)/(1+1.33pietay^3);

Question

Farooq Hussain am 18 Apr. 2020

0
Verknüpfen

Direkter Link zu dieser Frage

https://de.mathworks.com/matlabcentral/answers/518918-why-i-don-not-get-the-graph-when-i-add-a1-x-in-the-function-f1-x-y-a1-x-1-33-pi-eta-y-3-1-1

Kommentiert: Star Strider am 23 Apr. 2020

%clc
%clear all
eta=0.25;
L=2.5;
a=0.1;
h=0.1;
b=6;
x=a:h:b;
%%%%%%%%%%%%%%%%%%
A =@(x) (0<x).*1+(0<=x & x<=L).*(1+0.5*(1-cos(2*pi*x/L)).^1/2) + (L<x).*1;
A1=@(x) (gradient(A(x))./gradient(x));
f1=@(x,y) A1(x)+(1.33*pi*eta*y^3)/(1+1.33*pi*eta*y^3);
y(1)=01;
for i=1:length(x)-1;   
   k1=h*f1(x(i),y(i));
   k2=h*f1(x(i)+0.5*h,y(i)+.5*k1);
   k3=h*f1(x(i)+.5*h,y(i)+.5*k2);
   k4=h*f1(x(i)+h,y(i)+k3);
  y(i+1)=y(i)+(1/6)*(k1+2*k2+2*k3+k4);  
end
plot(x,y)

4 Kommentare
2 ältere Kommentare anzeigen2 ältere Kommentare ausblenden

Farooq Hussain am 23 Apr. 2020

Thank you again very much for this latest suggestion...But when i apply the same procedure i get the same plot whether i include or remove A(x) in f3 of the code....Can you please explain

clc

clear all;

%%%%

L=1.0;

Re=1000;

k=1.4;

we=137;

d=0.8; %%%% d=sigma

alphas=0;

%%% Step size%%%

a1=0;

h=0.05;

n=5;

x=[a1:h:n];

%%% Functions %%%

A = @(x)(0<x).*1+(0<=x & x<=L).*(1+0.5*(1-cos(2*pi*x/L))).^1/2 + (L<x).*1;

f1=@(x,u,v,cp,H,R)v;

f2=@(x,u,v,cp,H,R)H;

f3=@(x,u,v,cp,H,R)(-1+alphas+alphas*R.^3)+A(x).*u;

f4=@(x,u,v,cp,H,R)(2*u*v*(1-alphas))/(-1+alphas+alphas*R^3);

f5=@(x,u,v,cp,H,R)(2*(R^(-3*k)-(R^-1))/we+0.5*d*(-1+R^(-3*k))-0.5*cp-u*v*R*H-1.5*(u^2)*(H^2)-(4*u*R*H)/(Re))./(R*u^2);

%%% Initial Conditions %%%

cp(1)=0;

u(1)=01;

v(1)=0.0154;

R(1)=01;

H(1)=0.021;

for i=1:length(x)-1;

m1=h*f1(x(i), u(i), v(i), cp(i), H(i), R(i));

n1=h*f2(x(i), u(i), v(i), cp(i), H(i), R(i));

p1=h*f3(x(i), u(i), v(i), cp(i), H(i), R(i));

q1=h*f4(x(i), u(i), v(i), cp(i), H(i), R(i));

r1=h*f5(x(i), u(i), v(i), cp(i), H(i), R(i));

m2=h*f1(x(i)+0.5*h, u(i)+0.5*m1, v(i)+0.5*n1, cp(i)+0.5*p1, H(i)+0.5*q1, R(i)+0.5*r1);

n2=h*f2(x(i)+0.5*h, u(i)+0.5*m1, v(i)+0.5*n1, cp(i)+0.5*p1, H(i)+0.5*q1, R(i)+0.5*r1);

p2=h*f3(x(i)+0.5*h, u(i)+0.5*m1, v(i)+0.5*n1, cp(i)+0.5*p1, H(i)+0.5*q1, R(i)+0.5*r1);

q2=h*f4(x(i)+0.5*h, u(i)+0.5*m1, v(i)+0.5*n1, cp(i)+0.5*p1, H(i)+0.5*q1, R(i)+0.5*r1);

r2=h*f5(x(i)+0.5*h, u(i)+0.5*m1, v(i)+0.5*n1, cp(i)+0.5*p1, H(i)+0.5*q1, R(i)+0.5*r1);

m3=h*f1(x(i)+0.5*h, u(i)+0.5*m2, v(i)+0.5*n2, cp(i)+0.5*p2, H(i)+0.5*q2, R(i)+0.5*r2);

n3=h*f2(x(i)+0.5*h, u(i)+0.5*m2, v(i)+0.5*n2, cp(i)+0.5*p2, H(i)+0.5*q2, R(i)+0.5*r2);

p3=h*f3(x(i)+0.5*h, u(i)+0.5*m2, v(i)+0.5*n2, cp(i)+0.5*p2, H(i)+0.5*q2, R(i)+0.5*r2);

q3=h*f4(x(i)+0.5*h, u(i)+0.5*m2, v(i)+0.5*n2, cp(i)+0.5*p2, H(i)+0.5*q2, R(i)+0.5*r2);

r3=h*f5(x(i)+0.5*h, u(i)+0.5*m2, v(i)+0.5*n2, cp(i)+0.5*p2, H(i)+0.5*q2, R(i)+0.5*r2);

m4=h*f1(x(i)+h, u(i)+m3, v(i)+n3, cp(i)+p3, H(i)+q3, R(i)+r3);

n4=h*f2(x(i)+h, u(i)+m3, v(i)+n3, cp(i)+p3, H(i)+q3, R(i)+q3);

p4=h*f3(x(i)+h, u(i)+m3, v(i)+n3, cp(i)+p3, H(i)+q3, R(i)+r3);

q4=h*f4(x(i)+h, u(i)+m3, v(i)+n3, cp(i)+p3, H(i)+q3, R(i)+r3);

r4=h*f5(x(i)+h, u(i)+m3, v(i)+n3, cp(i)+p3, H(i)+q3, R(i)+r3);

u(i+1)=u(i)+(1/6)*(m1+2*m2+2*m3+m4);

v(i+1)=v(i)+(1/6)*(n1+2*n2+2*n3+n4);

cp(i+1)=cp(i)+(1/6)*(p1+2*p2+2*p3+p4);

H(i+1)=H(i)+(1/6)*(q1+2*q2+2*q3+q4);

R(i+1)=R(i)+(1/6)*(r1+2*r2+2*r3+r4);

end

plot(x,u,'k')

Star Strider am 23 Apr. 2020

In MATLAB Online öffnen

The ‘f3’ function likely makes a very small contribution, regardless. (The code is so complicated that it is difficult to follow.)

Plotting ‘f3’ alone (after the end of the loop so that all the vectors are present) with:

f3=@(x,u,v,cp,H,R)(-1+alphas+alphas*R.^3)+A(x).*u;

or without:

f3=@(x,u,v,cp,H,R)(-1+alphas+alphas*R.^3);%+A(x).*u;

the ‘A(x)’ term definitely makes a difference:

f3v = f3(x+h,  u+m3, v+n3,  cp+p3, H+q3, R+r3);
figure
plot(x, h*f3v); 

So ‘f3’ works correctly.

.

Melden Sie sich an, um zu kommentieren.

Melden Sie sich an, um diese Frage zu beantworten.

Answer 1

Star Strider am 18 Apr. 2020

0
Verknüpfen

Direkter Link zu dieser Antwort

https://de.mathworks.com/matlabcentral/answers/518918-why-i-don-not-get-the-graph-when-i-add-a1-x-in-the-function-f1-x-y-a1-x-1-33-pi-eta-y-3-1-1#answer_426820

In MATLAB Online öffnen

Do not use the for loop here. Let vectorisation work for you.

Try this:

eta=0.25;
L=2.5;
a=0.1;
h=0.1;
b=6;
x=a:h:b;
%%%%%%%%%%%%%%%%%%
A =@(x) (0<x).*1+(0<=x & x<=L).*(1+0.5*(1-cos(2*pi*x/L)).^1/2) + (L<x).*1;
A1=@(x) (gradient(A(x))./gradient(x));
f1=@(x,y) A1(x)+(1.33*pi*eta*y.^3)./(1+1.33*pi*eta*y.^3);
y(1)=01;
% for i=1:length(x)-1;   
   k1=h*f1(x,y);
   k2=h*f1(x+0.5*h,y+.5*k1);
   k3=h*f1(x+.5*h,y+.5*k2);
   k4=h*f1(x+h,y+k3);
  y = +(1/6)*(k1+2*k2+2*k3+k4);  
% end
plot(x,y)