Question for using root function.
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% Using the MATLAB function “roots” for find non-zero natural frequencies
% define symbolic variable w
syms w;
% Given parameters
m1 = 1.8; m2 = 6.3; m3 = 5.4; m4 = 22.5; m5 = 54;
c2 = 10; c3 = 0.5; c4 = 1.50; c5 = 1.1;
k2 = 100000; k3 = 50; k4 = 75; k5 = 10;
% Set up system matrices
% mass matrix
M = diag([m1, m2, m3, m4, m5]);
% damping matrix
C = [c2 -c2 0 0 0;
-c2 c2+c3 -c3 0 0;
0 -c3 c3+c4 -c4 0;
0 0 -c4 c4+c5 -c5;
0 0 0 -c5 c5];
% stiffness matrix
K = [k2 -k2 0 0 0;
-k2 k2+k3 -k3 0 0;
0 -k3 k3+k4 -k4 0;
0 0 -k4 k4+k5 -k5;
0 0 0 -k5 k5];
% Calculate frequency equation
Zw = w^2*M + 1i*w*C + K; % impedance matrix
freqEq = det(Zw); % take determinant to get frequency equation
pretty(simplify(freqEq)); % display simplified frequency equation
% Display the non-zero natural frequencies
disp('Non-zero natural frequencies (Hz):');
disp(root(freqEq))
11 Kommentare
John D'Errico
am 18 Mai 2024
Bearbeitet: John D'Errico
am 18 Mai 2024
Please stop posting the same question multiple times. If you want to expand on a question, then do so by editing the question, or by adding a comment. I closed the last question as a duplicate. In fact, since this is now at least the third time you asked this question...
Trong Nhan Tran
am 18 Mai 2024
Torsten
am 18 Mai 2024
disp(vpa(root(freqEq)))
instead of
disp(root(freqEq))
Trong Nhan Tran
am 19 Mai 2024
If you use the code from above, you won't get this error (at least if you work with MATLAB R2024a).
syms w
% Given parameters
m1 = 1.8; m2 = 6.3; m3 = 5.4; m4 = 22.5; m5 = 54;
c2 = 10; c3 = 0.5; c4 = 1.50; c5 = 1.1;
k2 = 100000; k3 = 50; k4 = 75; k5 = 10;
% Set up system matrices
% mass matrix
M = diag([m1, m2, m3, m4, m5]);
% damping matrix
C = [c2 -c2 0 0 0;
-c2 c2+c3 -c3 0 0;
0 -c3 c3+c4 -c4 0;
0 0 -c4 c4+c5 -c5;
0 0 0 -c5 c5];
% stiffness matrix
K = [k2 -k2 0 0 0;
-k2 k2+k3 -k3 0 0;
0 -k3 k3+k4 -k4 0;
0 0 -k4 k4+k5 -k5;
0 0 0 -k5 k5];
% Calculate frequency equation
Zw = w^2*M + 1i*w*C + K; % impedance matrix
freqEq = det(Zw); % take determinant to get frequency equation
pretty(simplify(freqEq)); % display simplified frequency equation
% Display the non-zero natural frequencies
disp('Non-zero natural frequencies (Hz):');
%disp(root(freqEq))
disp(vpa(root(freqEq)))
Trong Nhan Tran
am 19 Mai 2024
Bearbeitet: Trong Nhan Tran
am 20 Mai 2024
I don't have experience with the physical background of your equations.
Just solving your system for omega gives a similar result as yours - only the 1i's are missing.
syms w
% Given parameters
m1 = 1.8; m2 = 6.3; m3 = 5.4; m4 = 22.5; m5 = 54;
c2 = 10; c3 = 0.5; c4 = 1.50; c5 = 1.1;
k2 = 100000; k3 = 50; k4 = 75; k5 = 10;
M1 = [-k2, k2, 0, 0, 0;k2, -k3-c3-k2, k3+c3, 0, 0;0, k3, -k4-c4-k3, k4+c4, 0;0, 0, k4, -k5-c5-k4, k5+c5;0, 0, 0, k5, -k5];
M2 = [-c2, c2, 0, 0, 0;c2, -c2, 0, 0, 0;0, c3, -c3, 0, 0;0, 0, c4, -c4, 0;0, 0, 0, c5, -c5];
M3 = diag([m1,m2,m3,m4,m5]);
M = M1+w*M2+w^2*M3;
vpa(root(det(M)==0))
Trong Nhan Tran
am 19 Mai 2024
Torsten
am 19 Mai 2024
I just wrote your system of equations in matrix form
M(w)*[X1;X2;X3;X4;X5] = 0
and determined the values of w for which the equation has a nontrivial solution.
Trong Nhan Tran
am 19 Mai 2024
Write your equations (1)-(5) as
M1*[X1;X2;X3;X4;X5] + w*M2*[X1;X2;X3;X4;X5] + w^2*M3*[X1;X2;X3;X4;X5] = 0
and you will see that my M1, M2 and M3 matrices are correct to reproduce your system.
But as I said: I don't know if this is how "natural frequencies" are defined.
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