clc;
clear all;
close all;
syms a b d y c
x = 0.1; %leading egde distance (in cm)
Re = 1000; %Reynolds number
delta = (5*x)/(Re^(1/2)); %Boundary layer thickness
nu = 8.926e-03; %kinematic viscosity (in cm2./s)
U_inf = (Re*nu)/x; %freestream velocity(in cm./s)
alpha = 1:1:20; %wave number (in 1./cm)
U(y) = a*y^2 + b*y + d; %velocity profile equation
DU(y) = diff(U(y),y);
eqn1 = U(0)==0; %boundary condition1
eqn2 = U(delta)==U_inf; %boundary condition2
eqn3 = DU(delta)==0; %boundary condition3
eqns = [eqn1 eqn2 eqn3];
soln = solve(eqns,a,b,d);
a = double(soln.a); %value of a in velocity profile (in 1./cm.s)
b = double(soln.b); %value of b in velocity profile (in 1./s)
d = double(soln.d); %value of d in velocity profile (in cm./s)
z = delta./2; %location of y
u = double(subs(a*z^2 + b*z + d));
ddu = double(2*a);
%Non-dimensionalizing
Uy = double(u./U_inf);
ddUy = double((ddu.*delta.^2)./U_inf);
A = double(alpha.*delta);
Y = z./delta;
%Roots of the OS equation
C = zeros(1,length(alpha));
for i=1:1:20
l1(i) = -((-((A(i).*Re.*c.*1i)-(2.*A(i).^2)-(A(i).*Re.*Uy.*1i))+((2.*A(i).^2.*Re.^2.*Uy.*c)-(A(i).^2.*Re.^2.*(Uy.^2+c.^2))-(4.*A(i).*Re.*ddUy.*1i)).^(1/2))/2).^(1./2);
l2(i) = -((-((A(i).*Re.*c.*1i)-(2.*A(i).^2)-(A(i).*Re.*Uy.*1i))-((2.*A(i).^2.*Re.^2.*Uy.*c)-(A(i).^2.*Re.^2.*(Uy.^2+c.^2))-(4.*A(i).*Re.*ddUy.*1i)).^(1/2))/2).^(1/2);
LHS = ((Uy-c).*((l1(i).^2.*exp(l1(i).*y) - l2(i).^2.*exp(l2(i).*y)) - (a(i).^2.*(exp(l1(i).*y)-exp(l2(i).*y))))-(ddUy.*(exp(l1(i).*y)-exp(l2(i).*y))));
RHS = ((1/(a(i).*Re.*1i)).*(((l1(i).^4.*exp(l1(i).*y))-(l2(i).^4.*exp(l2(i).*y)))-(2.*a(i).^2.*(l1(i).^2.*exp(l1(i).*y) - l2(i).^2.*exp(l2(i).*y))) + a(i).^4.*(exp(l1(i).*y)-exp(l2(i).*y))));
eqn(i) = LHS-RHS;
C(i) = vpasolve(simplify(eqn(i)),c);
end
disp(C)
There is error inside the for loop. Can somebody help?
Thanks!!
