For the sake of completeness, here is some MATLAB code for a point-culling solution. It generates a set of random points within a unit cube, removes points that are outside a unit sphere, and scales the coordinate points up to fill a sphere of radius
XYZ = rand(1000,3)-0.5; %# 1000 random 3-D coordinates
index = (sum(XYZ.^2,2) <= 0.25); %# Find the points inside the unit sphere
XYZ = 2*R.*XYZ(index,:); %# Remove points and scale the coordinates
One key drawback to this point-culling method is that it makes it difficult to generate a specific number of points. For example, if you want to generate 1000 points within your sphere, how many do you have to create in the cube before culling them? If you scale up the number of points generated in the cube by a factor of
6/pi (i.e. the ratio of the volume of a unit cube to a unit sphere), then you can get close to the number of desired points in the sphere. However, since we're dealing with (pseudo)random numbers after all, we can never be absolutely certain we will generate enough points that fall in the sphere.
In short, if you want to generate a specific number of points, I'd try out one of the other solutions suggested. Otherwise, the point-culling solution is nice and simple.