error in line1and 4

2 views (last 30 days)
firas
firas on 11 May 2023
Commented: Torsten on 11 May 2023
Calculate the response function using the equation of motion:
omega_n = sqrt(k / m); % natural frequency
zeta = c / (2 * sqrt(m * k)); % damping ratio
omega_n = omega_n * sqrt(1 - zeta^2); % damped natural frequency
Calculate the response function using the equation of motion:
omega_n = sqrt(k / m); % natural frequency
zeta = c / (2 * sqrt(m * k)); % damping ratio
omega_d = omega_n * sqrt(1 - zeta^2); % damped natural frequency
figure;
plot(t, X);
xlabel('Time (s)');
ylabel('Displacement (m)');
title('Response of Mass-Spring-Damper System');
grid on;

Sign in to answer this question.

Answers (1)

Chunru
Chunru on 11 May 2023
Ran in:
Those are comments which shoud start with %
% Calculate the response function using the equation of motion:
omega_n = sqrt(k / m); % natural frequency
Unrecognized function or variable 'k'.
zeta = c / (2 * sqrt(m * k)); % damping ratio
omega_n = omega_n * sqrt(1 - zeta^2); % damped natural frequency
% Calculate the response function using the equation of motion:
omega_n = sqrt(k / m); % natural frequency
zeta = c / (2 * sqrt(m * k)); % damping ratio
omega_d = omega_n * sqrt(1 - zeta^2); % damped natural frequency
figure;
plot(t, X);
xlabel('Time (s)');
ylabel('Displacement (m)');
title('Response of Mass-Spring-Damper System');
grid on;
  2 Comments
firas
firas on 11 May 2023
it says vakue assigned to variable might be unsured (omega_n);
omega_n = omega_n * sqrt(1 - zeta^2); % damped natural frequency
Torsten
Torsten on 11 May 2023
It means that you defined a variable, but you didn't use this variable in the sequel. Thus deleting the line where you defined the variable would not change anything in the results from the code - usually an indicator that you made a mistake.

Sign in to comment.

Categories

Find more on MuPAD in Help Center and File Exchange

Tags

Community Treasure Hunt

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

Start Hunting!