There are some points you need to consider.
- the for-loop is not necessary
- your coeffcient vectors need to be the same length
- you need to use the elementwise-multiplication operator
Edit: I actually misunderstood your question first, now it should be correct.
so your code looks like:
q1x = -170:5:170;
q2x = -65:5:140;
q3x = -180:5:70;
[x1, x2, x3] = meshgrid(q1x',q2x',q3x');
Q = [x1(:),x2(:),x3(:)];
q1 = Q(:,1);
q2 = Q(:,2);
q3 = Q(:,3);
c1 = cosd (q1);
c2 = cosd (q2);
c3 = cosd (q3);
s1 = sind (q1);
s2 = sind (q2);
s3 = sind (q3);
x = (320.*c1) - (975.*c1.*s2) - (200.*c1.*c2.*s3) - (200.*c1.*c3.*s2);
y = (320.*s1) - (975.*s1.*s2) - (200.*c2.*s1.*s3) - (200.*c3.*s1.*s2);
z = (975.*c2) + (200.*c2.*c3) - (200.*s2.*s3) + 680;
That is quite a big amount of data. -
x,y,z are all single points of your surface.
Now I don't really know how your "surface" is supposed to look like. Please clarify what you want to obtain.
scatter3 would give you this cute mushroom:
Getting a real surface from your scatter data is a little tricky, but you can just do some research on "surface from scatter data" or something...