Reynolds stress plot error

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Cesar Cardenas
Cesar Cardenas el 28 de Mzo. de 2023
Respondida: VBBV el 28 de Mzo. de 2023
I'm getting this error when trying to plot this:
Error in BL_9 (line 15)
R = (1./delta) * trapz(y, tau .* u - tau' .* u); % Reynolds stress
not sure how to fix it, any help will be appreciated. thanks
clear all; close all; clc;
U_inf = 100; % free stream velocity in m/s
L = 1; % plate length in m
nu = 1.5e-5; % kinematic viscosity of air in m^2/s
rho = 1.2; % air density in kg/m^3
Re = U_inf * L / nu; % Reynolds number
n = 1/7; % power law exponent for laminar flow
x = linspace(0, 1, 100); % distance from leading edge in m
delta = 5.0 * x / sqrt(Re); % boundary layer thickness
u = U_inf * (x ./ delta).^n; % velocity profile
dudy = n * U_inf ./ delta .* (x ./ delta).^(n-1); % velocity gradient
tau = rho * u .* dudy; % shear stress
R = (1./delta) * trapz(y, tau .* u - tau' .* u); % Reynolds stress
plot(y, R);
xlabel('Distance from leading edge (m)');
ylabel('Reynolds stress (Pa)');
title('Reynolds stress profile');

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VBBV
VBBV el 28 de Mzo. de 2023
Ran in:
clear all; close all; clc;
U_inf = 100; % free stream velocity in m/s
L = 1; % plate length in m
nu = 1.5e-5; % kinematic viscosity of air in m^2/s
rho = 1.2; % air density in kg/m^3
Re = U_inf * L / nu; % Reynolds number
n = 1/7; % power law exponent for laminar flow
x = linspace(0.1, 1, 100); % distance from leading edge in m
delta = 5.0 * x / sqrt(Re); % boundary layer thickness
u = U_inf * (x ./ delta).^n % velocity profile
u = 1×100
244.1008 244.1008 244.1008 244.1008 244.1008 244.1008 244.1008 244.1008 244.1008 244.1008 244.1008 244.1008 244.1008 244.1008 244.1008 244.1008 244.1008 244.1008 244.1008 244.1008 244.1008 244.1008 244.1008 244.1008 244.1008 244.1008 244.1008 244.1008 244.1008 244.1008
dudy = n * U_inf ./ delta .* (x ./ delta).^(n-1); % velocity gradient
tau = rho * u .* dudy % shear stress
tau = 1×100
1.0e+05 * 1.0215 0.9363 0.8643 0.8026 0.7491 0.7023 0.6609 0.6242 0.5914 0.5618 0.5351 0.5107 0.4885 0.4682 0.4494 0.4322 0.4162 0.4013 0.3875 0.3745 0.3625 0.3511 0.3405 0.3305 0.3210 0.3121 0.3037 0.2957 0.2881 0.2809
R = (1./delta).*trapz(x.', tau .* u - tau.' * u) % Reynolds stress
R = 1×100
1.0e+10 * 8.6226 7.0188 5.7875 4.8238 4.0571 3.4384 2.9329 2.5154 2.1672 1.8743 1.6261 1.4142 1.2323 1.0751 0.9386 0.8195 0.7152 0.6234 0.5424 0.4706 0.4068 0.3499 0.2990 0.2535 0.2126 0.1758 0.1426 0.1126 0.0854 0.0608
plot(x, R);
xlabel('Distance from leading edge (m)');
ylabel('Reynolds stress (Pa)');
title('Reynolds stress profile');

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