# How to calculate Angles it would take to rotate from one vector to another?

I have two normalized vectors: A) 0,0,-1 B) 0.559055,0.503937,0.653543

I want to know, what rotations about the axes would it take to take the vector at 0,0,-1 to 0.559055,0.503937,0.653543?

How would I calculate this? Something like, rotate over X axis 40 degrees and Y axis 220 (that's just example, but I don't know how to do it).

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Check this out. (google is a good thing)

This calculates the angle between two vectors. If Vector A is (ax, ay, az) and
Vector B is (bx, by, bz), then

The cos of angle between them is:

``````                     (ax*bx + ay*by + az*bz)
--------------------------------------------------------
sqrt(ax*ax + ay*ay + az*az) * sqrt(bx*bx + by*by + bz*bz)
``````

To calculate the angle between the two vectors as projected onto the x-y plane, just ignore the z-coordinates.

Cosine of Angle in x-y plane =

``````                (ax*bx + ay*by)
--------------------------------------
sqrt(ax*ax + ay*ay) * sqrt(bx*bx + by*by
``````

Similarly, to calculate the angle between the projections of the two vectors in the x-z plane, ignore the y-coordinates.

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That gets one angle. I don't know what it means? I want the angles over the x,y rotations that it would take me from 0,0,-1 to 0.559055,0.503937,0.653543. I get one angle out of this, what do I do with it? –  Mary Ellen Bench Apr 6 '13 at 21:30
This calculates the angle, what you do with it is up to you... What are you calculating it for? Do you want this angle nroken up into two components ? –  Charles Bretana Apr 6 '13 at 21:35
That doesn't tell me how I get from 0,0,-1 to 0.559055,0.503937,0.653543 in 3D (3 angles). It gets 130 degrees approximately, but that is not in rotation over X, Y, and Z axes. –  Mary Ellen Bench Apr 6 '13 at 21:35
It is a single rotation, in the plane formed by the two vectors, directly from the first vector to the other. If you want to know how this would be done moving in discrete steps, that's a different problem that has no definitive answer. You could move from A to B in any number of different ways if you can move in multiple steps. –  Charles Bretana Apr 6 '13 at 21:42
Yes that's the problem I'm trying to solve. Is there an iterative algorithm or some way to do this? –  Mary Ellen Bench Apr 6 '13 at 21:44

It sounds like you're trying convert from Cartesian coordinates (x,y,z) into spherical coordinates (rho,theta,psi).

Since they're both unit vectors, rho, the radius, will be 1. This means your magnitudes will also be 1 and you can skip the whole denominator and just use the dot-product.

Rotating in the X/Y plane (about the Z axis) will be very difficult with your first example (0,0,-1) because it has no extension in X or Y. So there's nothing to rotate.

(0,0,-1) is 90 degrees from (1,0,0) or (0,1,0). If you take the x-axis to be the 0-angle for theta, then you calculate the phi (rotation off of the X/Y plane) by applying the inverse cos upon (x,y,z) and (x,y,0), then you can skip dot-products and get theta (the x/y rotation) with atan2(y,x).

Beware of gimbal lock which may cause problems.

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