I want to generate equidistant points on a sphere (surface of the sphere). I have come up with this code.

n = 30; % number of points
r = 10; % radius of the sphere

thetha = 0:pi/(n/2):2*pi; 
phi    = -pi:2*pi/n:pi;
xp     = r.*sin(phi).*cos(thetha);
yp     = r.*sin(thetha).*sin(phi);
zp     = r.*cos(phi);

But this is what I get enter image description here

Can anyone tell where what mistake I am making in my code?


You're only generating one path: a figure eight combination of a single closed circle in the x-y plane with single cosine along the z.

Three Views of the single, closed curve

To get a full sphere shape, permutations of the two paths must be taken. This can be accomplished with meshgrid:

[t,p] = meshgrid(thetha,phi);    
xp    = r.*sin(p).*cos(t);
yp    = r.*sin(t).*sin(p);
zp    = r.*cos(p);  

Spherical shape plot

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  • Thank you. But this seems to generate more points than required. It is generating nxn points. But I need to generate n points only. – nashynash May 16 '17 at 1:44
  • @nashynash Then have thetha and phi be of length sqrt(n) and flatten the arrays generated by meshgrid: t = t(:); p = p(:);. – TroyHaskin May 16 '17 at 2:16
  • I am sorry. I do not quite understand what you mean. Does it mean thetha = 0:pi/(sqrt(n)/2):sqrt(n); and -sqrt(n):4*pi/sqrt(n):sqrt(n);. – nashynash May 16 '17 at 2:47
  • @nashynash No. I mean that meshgrid will return m-by-m matrices if the inputs are vectors of length m. So if you want m points, the input vectors must by of length sqrt(m). Note: The way you are making thetha and phi now creates vectors of length n+1; this is perfectly okay but must be understood. Setting n = 4 will make thetha and phi vectors of length 5, meshgrid will generate 5-by-5 matrices, and t = t(:); p = p(:); will make them vectors of length 25. – TroyHaskin May 16 '17 at 3:50
  • 1
    @nashynash I understand your goal now. And from doing a little research, it is apparently not possible to distribute 30 points equidistantly on a sphere without some serious effort and definitions. My answer above will generate a spheroidal shape but will not generate the desired set of points. And, unfortunately, I do not have enough technical knowledge in the area to write such a function at this moment. – TroyHaskin May 16 '17 at 6:42

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