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If your 4 points are on the same plane and you want to find the normal of the plane, just normalize the cross product of two non-parallel edges (you only need 3 points).

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The dot product give the angle between A & B. In Fortran something like: dotAB = DASIN(DOT(A/|A|, B/|B|)). A cross product gives a vector orthongal to A and B. The projection of the Xproduct-vector towards the planes (or axis) should get you there when multiplied by the angle DotAB. You'll probably be a sine or cosine in there.

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I don't think the problem has a solution unless both A and B are the same length and A and B both make the same angle (in the usual sense of shortest angle between vectors) with the axis. I will assume that these are given. In that case, one solution would be to compute the orthogonal projection of both A and B into a plane that is orthogonal to the axis. ...

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There is no clockwise or counter-clockwise in 3D space. If you have given two vectors A and B, there is exactly one angle between them. It's a pretty canonical choice: The smaller of the two angles connecting them in the plane which is defined by A and B (i.e. the plane which is parallel to both of these vectors. There is only one choice unless A and B are ...

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-- black/blue/green point local lightsource = { x = 111, y = 112, z = 113 } -- 3 points on the facet, first point is the center local facet = {{ x = 1, y = 2, z = 3 }, { x = 4, y = 5, z = 6 }, { x = 7, y = 8, z = 9 }} local facet_normal = normalise2d3dVector(crossProduct3d( subtract_vectors(facet[2], facet[1]), ...

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If you want to move a Vector smoothly between two vectors, use Vector3.Lerp(firstPosOrRotation, secondPosOrRotation, Time.deltaTime*Input.GetInputRaw("Horizontal")*speed); Input.GetInputRaw("Horizontal") is just a value between -1 and 1 depending on the arrow keys being pressed. Now just get each point and the next point in the path and Lerp between them....

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