# rotate a plane around a diagonal

I would like to rotate a plane, not around a single (X or Y) axis, but around the diagonal (45 degrees between X and Y). How do I calculate the Rx and Ry given the Rdiagonal?

(Rdiagonal is the amount of rotation I would like to achieve around the diagonal axis).

To clarify: just take a yellow PostIt and draw cross on it (a horizonal and a vertical line). These are the X and Y axes. Rotating around these axes is easy (assuming you can just specify Rx and Ry). But I would like to rotate around the diagonal axis. What are the Rx and Ry in that case?

I think it's something like Rx = Rdiagonal / sqrt(2). But I'm not sure.

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Hmmm, I understand how to rotate a plane around a point in 2D. I understand how to rotate a plane around a line in 3D. But I suspect that you do not mean the latter operation. Could you clarify ? –  High Performance Mark Apr 13 '10 at 18:28

This is probably more of a mathoverflow question, but I found some information here about rotation around an arbitrary axis. It provides the derivation for the translation and rotation matrices.

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MathOverflow would probably consider this question too easy and would close it. –  Brian Apr 13 '10 at 18:33
Indeed, MathOverflow is only for "research level math questions" :( –  Joey Adams Apr 13 '10 at 19:47
Ah, I didn't know that! –  Vivin Paliath Apr 13 '10 at 20:16

Your plane will most certainly given by some points (depending on the dimensionality). You can then use a rotation matrix to transform these points: new = R * old. Afterwards, construct your plane from these points.

To get the right rotation matrix, see the entry at wikipedia.

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-1 for misleading link. And I don't think this is a good MathOverflow question. Too easy. –  Brian Apr 13 '10 at 18:34
Woah, I intended to put a wikipedia link there. –  bayer Apr 14 '10 at 6:46