Revolve a Plot around y axis to generate a 3D plot
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I am interested in revolving a plot around the yaxis to generate a 3D plot.
Say,
theta =linspace(-pi/2,pi/2,100);
a=.75;
b=.25;
X=a*cos(theta);
Y=b*sin(theta)
Now I want to revolve that around the Y axis to generate a 3D plot. How would I do that without using the cylinder function?
I looked at some of the solutions on here, but I apply what they have I think its revolving around the x-axis instead of the y-axis.
Respuestas (2)
%2D Data
n = 100;
theta = linspace(-pi/2,pi/2,n);
a=.75;
b=.25;
X=a*cos(theta);
Y=b*sin(theta);
%plot the 2D curve
figure
plot(X, Y)
xlabel x
ylabel y
%% Generate data for x and z, as revolution is around y-axis
t0 = linspace(0, 2*pi, n).';
x = X.*cos(t0);
z = X.*sin(t0);
%repeat the same data for y
y = repmat(Y, n, 1);
%plot the surface
figure
surf(x, y, z)
xlabel x
ylabel y
zlabel z
%% Change the view to x-y plane to check
figure
surf(x, y, z)
xlabel x
ylabel y
zlabel z
view([0 0 1])
4 comentarios
Kenneth
el 17 de Nov. de 2023
The axes have different scale factors.
Add
axis equal
to the figures.
@Torsten, Thanks.
@Kenneth, here is the modified result -
%2D Data
n = 100;
theta = linspace(-pi/2,pi/2,n);
a=.75;
b=.25;
X=a*cos(theta);
Y=b*sin(theta);
%plot the 2D curve
figure
plot(X, Y)
xlabel x
ylabel y
%% Generate data for x and z, as revolution is around y-axis
t0 = linspace(0, 2*pi, n).';
x = X.*cos(t0);
z = X.*sin(t0);
%repeat the same data for y
y = repmat(Y, n, 1);
%plot the surface
figure
surf(x, y, z)
xlabel x
ylabel y
zlabel z
axis equal
%% Change the view to x-y plane to check
figure
surf(x, y, z)
xlabel x
ylabel y
zlabel z
view([0 0 1])
axis equal
Dyuman Joshi
el 21 de Nov. de 2023
Try this —
theta =linspace(-pi/2,pi/2,100);
a=.75;
b=.25;
X=a*cos(theta);
Y=b*sin(theta);
figure
plot(X, Y)
grid
xlabel('X')
ylabel('Y')
zlabel('Z')
axis('equal')
title('Elevation Profile')
[Xs,Ys,Zs] = sphere(50);
Xs = Xs*a;
Ys = Ys*a;
Zs = Zs*b;
figure
hs = surf(Xs, Ys, Zs);
xlabel('X')
ylabel('Y')
zlabel('Z')
axis('equal')
colormap(turbo)
% rotate(hs, [1 0 0], 90)
figure
hs = surf(Xs, Ys, Zs);
xlabel('X')
ylabel('Y')
zlabel('Z')
axis('equal')
colormap(turbo)
view(0,90)
title('Top View')
figure
hs = surf(Xs, Ys, Zs);
xlabel('X')
ylabel('Y')
zlabel('Z')
axis('equal')
colormap(turbo)
view(90,0)
title('Side View')
Make appropriate changes to get the result you want.
.
3 comentarios
Kenneth
el 17 de Nov. de 2023
Kenneth
el 17 de Nov. de 2023
Star Strider
el 17 de Nov. de 2023
The sphere function has been stable for as long as I’ve been using it, literally decades. (There is no absolute guarantee that all code is going to be compatible with all future MATLAB releases, regardless.) With respect to evolving over time, that requires updating the variable multiplications:
[Xs,Ys,Zs] = sphere(50);
Xs = Xs*a;
Ys = Ys*a;
Zs = Zs*b;
with each update of ‘a’ and ‘b’.
If you want to animate it, that means either re-drawing it each time and displaying them, or storing all the updates in a matrix (most likely a cell array) and then looping through the matrix to display them. See the documentation section on Animation for those details.
.
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