3D plot of part of hyperboloid

I would like to plot a 3D figure of a hyperbole that is cut down at the bottom of it in the following way (figure)

any ideas?

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FYI, a conic section is something else entirely. You'll get more relevant views if you change the title to reflect this. Also, the figure you show is not a cone but a paraboloid. Which one do you want to plot? –  Rody Oldenhuis Sep 18 '12 at 6:22
tnx, changed it, and it's suppose to be an hyperbole –  jarhead Sep 18 '12 at 6:29

OK, here's my stab at your problem. This is the experimental script I've been using:

``````%%# first part
%#------------------

clf

%# use cylinder to get unit cone
[x,y,z] = cylinder( linspace(1, 0, 1e3), 1e3);

%# intersect the cone with this surface
inds = z < (cos(x).*sin(pi*y/2)+1)/4;

x(inds) = NaN; %# remove all corresponding
y(inds) = NaN; %# indices, in all arrays
z(inds) = NaN;

%# Now plot the cone. Note that edges are ugly when
%# using a large number of points
surf(x, y, z, 'edgecolor', 'none');

%%# second part
%#------------------

hold on

%# the surface to intersect the cone with
f = @(x,y) (cos(x).*sin(pi*y/2)+1)/4;

%# add the surfacfe to the cone plot
[x,y] = meshgrid( linspace(-1,1, 1e3) );
surf(x,y, f(x,y), 'edgecolor', 'none')
``````

The first part shows a cone intersected with a curve. You might want to tinker a bit with the curve to get the overall shape right, which is what the second part is for.

If you want a paraboloid (or other), just use

``````[x,y] = meshgrid( linspace(-1,1, 1e3) );
z = 1-x.^2-y.^2;  %# or whatever other equation
``````

instead of the `cylinder` command.

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@ Rody, it didn't produce a picture like above, I just want the surface... –  jarhead Sep 18 '12 at 8:51
@jarhead huh? Works fine here...What did you see then? –  Rody Oldenhuis Sep 18 '12 at 10:35
the second part is unnecessary and for an hyperbole: z=c*sqrt(1+(x/a).^2+(y/b).^2), but tnx for the help, I worked it out –  jarhead Sep 19 '12 at 2:40
@jarhead Just to clear a few misunderstandings: I already mentioned the second part is useless, other than to "design" the function for the wavy-part. And a hyperbole is a curve, whereas a hyperboloid is the surface you describe. And I didn't know your values for `c`, `a` and `b`, so I just gave you a simple paraboloid as an example. Anyway, glad it works now, glad to help :) –  Rody Oldenhuis Sep 19 '12 at 5:16