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I have a set of 3D normal vectors for points on a 3D mesh, and I need to calculate the slope of the area below each of them. I have no idea how to do this. I don't need X or Y slope, I just need the total incline of the point in question (although to be fair, I don't know how to derive total slope from X and Y slope individually, which is part of my problem). I did see This article, but I couldn't really make heads or tails of it... The vectors are outward-facing. If anyone can explain this one to me, I'd be really grateful.

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If you already have the normal vector, you're almost there. What you now need is the angle (look for dot product) between the normal and a vertical line (what exactly vertical means depends on your application).

If your normal vectors are actually normalized (have length 1) and the vertical is (0 0 1), the cosine of the slope angle is simply the z coordinate of the normal vector.

To demonstrate this: Take a pen and let it stand on your table. This is your table's normal vector. The angle between this vector and a vertical line is zero, as your table has no slope at all. If you tilt your table by a certain amount, the angle between the normal and a vertical line will increase by the same amount.

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  • My vectors are normalized. At least, they should be, assuming I didn't cock up the previous step (given my performance on this job so far, that's not a given either, but we'll roll with it). So in order to get the slope angle, all I need is something like this
    – J.Swersey
    May 21, 2013 at 12:51
  • slope = math.cos(vector3.zCoordinate) ?
    – J.Swersey
    May 21, 2013 at 12:51
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    no, the z coordinate is the cosine, so you need to take the arccos of z
    – Christoph
    May 21, 2013 at 13:37
  • How could you apply this to get not the slope on Z axis but instead the x/y angle in compass degrees?
    – Fra
    Sep 21, 2017 at 16:01

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