How to make this 3D plot?

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Leonardus Risky
Leonardus Risky on 18 Jul 2018
Answered: tarek hussein on 6 Oct 2022
Hello Everybody, can anyone help me how to get this plot if i have every variables in x, y, and z axis and i want to plot in 3D but i need my plot is rotating along Y axis and the plot result is like in the image. Thank You.

Accepted Answer

Aquatris
Aquatris on 18 Jul 2018
You need the location of each node and the vibration amplitudes (assuming circular orbits) or magnitudes in each direction (assuming elliptical orbits). Then you need to create ellipses or circles at each node location. Here is the modified code where I assumed Y is the node locations, X and Z are the vibrations at their respective nodes.
X = [0 4 5 -2 0 2 4 1 4 2];
Y = [0 1 2 3 4 5 6 7 8 9];
Z = [0 2 1 -3 -2 -1 3 1 3 -1];
theta = 0:0.01:2*pi;
for i = 1:length(X)
Xv = X(i)*cos(theta);
Zv = Z(i)*sin(theta);
Yv = repelem(Y(i),length(theta));
plot3([0 0],[0 Y(end)],[0 0],'r-',Xv,Yv,Zv,'k-');
hold on;
end
axis([-10 10 -10 19 -10 10])
grid on
This is not an optimized code. Each iteration of for loop draws one of the ellipses. One can optimize it by converting the for loop into a simple matrix multiplication. You should play with the aestetics option to obtain what you actually want.
  2 Comments
Leonardus Risky
Leonardus Risky on 18 Jul 2018
it can't run becasue this error: Undefined function 'repelem' for input arguments of type 'double'.
Error in plotmodes (line 9) Yv = repelem(Y(i),length(theta));
but what i want is to how i plot the 3D line in the 3D plot is make a elipse along with Y axis if Y is the nodal location and X,Z axis is the response displacement. Thank You for your response.
Aquatris
Aquatris on 18 Jul 2018
You might be using an older version where repelem function is not built-in. change that part to
Yv = Y(i)*ones(1,length(theta));
The image is the output of the code.

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More Answers (1)

tarek hussein
tarek hussein on 6 Oct 2022
how i can plot orbit of vibration of a rotating shaft with its center
x1=BD(1:10000,1 ) % the vibration vector readings in x direction
y1=BD(10000:15000,2) % the vibration vector readings in y direction
figure
p1= plot(x1,y1)
xlabel(' journal Disp in X direction');
ylabel('journal Disp in Y direction');
grid on

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