Talk:Vector rotation: Difference between revisions
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imported>Paul Wormer (→Paper on internet: new section) |
imported>David E. Volk |
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--[[User:Paul Wormer|Paul Wormer]] 00:30, 8 April 2009 (UTC) | --[[User:Paul Wormer|Paul Wormer]] 00:30, 8 April 2009 (UTC) | ||
== Here's how I used it == | |||
:: V1 and V2 can be any direction with the equation given, not nearly parallel. I also have the paper and have been using it for vectors that are often nearly perpendicular. There are tons of ways to use these rotations in computer programs. Personally, I used it a few weeks ago to write a program that creates DNA atomic structures from secondary structure information. After an unusual bulge or kink in the DNA, say a 5-base bulge on one side, the program translates the entire structure so the last base pair's center is at (0,0,0) and then rotates the entire structure such that the last base pair's helical axis points in the direction (0,0,1), after which additional DNA base pairs to can be simply stacked right up on top. [[User:David E. Volk|David E. Volk]] 12:55, 8 April 2009 (UTC) |
Revision as of 06:55, 8 April 2009
Quaternions
Any help creating a quaternion methods section for the article would be greatly appreciated. Also, I wonder if the final equation shown is sufficient for this article, or whether I should expand the final answer to show the full calculation of rxx, rxy and the final values of rotated vector in terms of V1 and V2. David E. Volk 17:46, 8 March 2009 (UTC)
Paper on internet
I found a copy of the Möller-Hughes paper here. It seems that the present CZ article lacks the general formula and only gives the formula for the special case of almost parallel V1 and V2 (plus typo).
Question: what is the use of the rotation matrix? Usually such a matrix is used to construct V2 from V1, but now V2 is already known.
--Paul Wormer 00:30, 8 April 2009 (UTC)
Here's how I used it
- V1 and V2 can be any direction with the equation given, not nearly parallel. I also have the paper and have been using it for vectors that are often nearly perpendicular. There are tons of ways to use these rotations in computer programs. Personally, I used it a few weeks ago to write a program that creates DNA atomic structures from secondary structure information. After an unusual bulge or kink in the DNA, say a 5-base bulge on one side, the program translates the entire structure so the last base pair's center is at (0,0,0) and then rotates the entire structure such that the last base pair's helical axis points in the direction (0,0,1), after which additional DNA base pairs to can be simply stacked right up on top. David E. Volk 12:55, 8 April 2009 (UTC)
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