I get the error of "Array indices must be positive integers or logical values"

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Iam trying to run this code but i am getting this following error "Array indices must be positive integers or logical values", how can i fix it?
My code
clc; clear all;close all;
% Define the geometry and flow conditions for the nozzle
Tt = 3000; % total temperature in the combustion chamber, in Kelvins
pt = 1500e3; % total pressure in the combustion chamber, in pascals
m = 10; % mass flow rate through the nozzle, in kilograms/second
gamma = 1.4; % ratio of specific heats for the gas
cp = 1000; % specific heat capacity at constant pressure, in joules/kilogram-kelvin
% Define the grid for the nozzle
x_min = 0.0; % minimum x coordinate of the grid, in meters
x_max = 1.0; % maximum x coordinate of the grid, in meters
nx = 100; % number of grid points in the x direction
dx = (x_max - x_min) / nx; % grid spacing in the x direction, in meters
% Initialize the flow field
u = zeros(nx, 1); % x-component of velocity, in meters/second
p = zeros(nx, 1); % pressure, in pascals
rho = zeros(nx, 1); % density, in kilograms/meter^3
T = zeros(nx, 1); % temperature, in Kelvins
% Set the inlet boundary conditions
p(1) = pt;
T(1) = Tt;
% Iterate over the characteristics to solve for the flow field
for i = 1:nx
% Compute the x-component of the characteristic direction
char_x = u(i) * rho(i);
% Compute the flow properties at the next point along the characteristic
u(i+1) = u(i) - (dx / char_x) * (p(i) - p(i-1));
rho(i+1) = rho(i) * (u(i) / u(i+1));
T(i+1) = T(i) * (rho(i) / rho(i+1))^(gamma-1);
% Compute the pressure at the next point along the characteristic
p(i+1) = p(i) + rho(i) * (u(i) - u(i+1)) * dx;
end
% Compute the flow properties at the exit of the nozzle
exit_velocity = u(nx);
exit_density = rho(nx);
exit_pressure = p(nx);
exit_temperature = T(nx);
% Print the results to the console
fprintf('Exit velocity: %f m/s\n', exit_velocity);
fprintf('Exit density: %f kg/m^3\n', exit_density);
fprintf('Exit pressure: %f Pa\n', exit_pressure);
fprintf('Exit temperature: %f K\n', exit_temperature);
% Compute the Mach number at each point in the nozzle
Mach = u ./ sqrt(gamma * cp * T);
% Plot the flow properties as contour plots
figure;
subplot(2,2,1);
contourf(Mach);
xlabel('x (m)');
ylabel('y (m)');
title('Mach number');
subplot(2,2,2);
contourf(p/1e3);
xlabel('x (m)');
ylabel('y (m)');
title('Pressure (kPa)');
subplot(2,2,3);
contourf(T); % Plot the flow properties as contour plots
figure;
subplot(2,2,1);
contourf(Mach);
xlabel('x (m)');
ylabel('y (m)');
title('Mach number');
subplot(2,2,2);
contourf(p/1e3);
xlabel('x (m)');
ylabel('y (m)');
title('Pressure (kPa)');
subplot(2,2,3);
contourf(T);
xlabel('x (m)');
ylabel('y (m)');
title('Temperature (K)');
subplot(2,2,4);
contourf(rho);
xlabel('x (m)');
ylabel('y (m)');
title('Density (kg/m^3)');
% Plot the velocity magnitude as a line plot
figure;
plot(sqrt(u.^2 + v.^2));
xlabel('x (m)');
ylabel('Velocity magnitude (m/s)');
title('Velocity magnitude');

Accepted Answer

Sulaymon Eshkabilov
Sulaymon Eshkabilov on 30 Dec 2022
Make these corrections in your code's loop iteration:
...
for i = 2:nx
% Compute the x-component of the characteristic direction
char_x = u(i-1) * rho(i-1);
% Compute the flow properties at the next point along the characteristic
u(i) = u(i-1) - (dx / char_x) * (p(i) - p(i-1));
rho(i) = rho(i-1) * (u(i-1) / u(i));
T(i) = T(i-1) * (rho(i-1) / rho(i))^(gamma-1);
% Compute the pressure at the next point along the characteristic
p(i) = p(i-1) + rho(i-1) * (u(i-1) - u(i)) * dx;
end

More Answers (1)

Image Analyst
Image Analyst on 31 Dec 2022
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