# how to animate 3d plot given a rotation axis in mathematics

If given a rotation axis normalized, such as {1/Sqrt[3],1/Sqrt[3],1/Sqrt[3]}, and a 3d plot, for example,

```z[x_, y_] := Exp[-(Sqrt[x^2 + y^2]/Power[4, (3)^-1]) + Power[4, (3)^-1]*Sqrt[1/2*(Sqrt[x^2 + y^2] + x)]];```

`Plot3D[2*z[x, y], {x, -5, 5}, {y, -5, 5}]`

I want to create an animation for this plot about the axis {1/Sqrt[3],1/Sqrt[3],1/Sqrt[3]} (could be any other arbitary one), and then export it as an animated gif. Would anyone please help? Many thanks.

Edit

I also left out one degree of freedom in specifying the rotation. Could any one please help, if also given the coordinate of a point which the rotational axis must pass, how to do the visualization/animation? Thanks again.

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I beg you to review your decision and accept Daniel's answer instead of mine. I copied the code there and just added the export feature, not a big deal. It's a shame to get 15 points just for copying and pasting. Thanks! – –  belisarius Mar 4 '11 at 22:25
@belisarius: i understood, and I would go with what you requested here. :) Initially I thought about this, and I thought yours is a complete solution. It'll be easier for people who come to read this post. But anyhow... –  Qiang Li Mar 4 '11 at 22:32

Could do as below.

``````axis = {1, 1, 1};

Animate[
Plot3D[2*z[x, y], {x, -5, 5}, {y, -5, 5}] /.
gg : GraphicsComplex[___] :> Rotate[gg, theta, axis],
{theta, 0., 2.*Pi}]
``````

Daniel Lichtblau Wolfram Research

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@Daniel: thanks a lot. Do you happen to remember how to export the animation? –  Qiang Li Feb 28 '11 at 23:32
@Qiang To export is easier to make a Table[] with the plots and then Export["filename.gif", tableWithPlots] –  belisarius Feb 28 '11 at 23:52
@Simon The last one here was more difficult: stackoverflow.com/questions/4362498/… –  belisarius Mar 1 '11 at 4:43
@belisarius, +1 on your old 4362498 answer. Sometimes you put a crazy (read: more than the question deserves or the OP expects) amount of effort into these things! Not that I or they are complaining. –  Simon Mar 1 '11 at 6:27
@Simon Regarding the randomness answer, I guess most 101 courses are too boring and people tend to forget them. Then, a few years later, someone tells them the same using visually appealing examples and they realize the importance of the concept and the dangers of ignoring the basics. Its incredible score was a surprise for me too, mostly because my poor command of the English language drives me usually to write answers that either are very short or depict me as a simpleton. –  belisarius Mar 1 '11 at 11:40

Copying what Daniel did, just prepared for exporting.

``````axis = {1, 1, 1};
l = {-7, 7};

s = Table[

Plot3D[2*z[x, y], {x, -5, 5}, {y, -5, 5}, PlotRange -> {l, l, l}] /.

gg : GraphicsComplex[___] :> Rotate[gg, theta, axis], {theta, 0., 2. Pi}];

Export["c:\\test.gif", s]
``````

The following parameters are available for the gif export (as per the docs):

``````"AnimationRepetitions" how many times the animation is played before stopping
"Background"           background color shown in transparent image regions
"BitDepth"             bits used to represent each color channel in the file
"ColorMap"             color reduction palette, given as a list of color values
"GlobalColorMap"       default color palette for individual animation frames
"DisplayDurations"     display durations of animation frames, given in seconds
"ImageCount"           number of frames in an animated GIF
"ImageSize"            overall image size
"RawData"              array of color map indices
@Qiang Li: The reason for the gif being nicer is that the data is not computed along the way. Try `ListAnimate[s]` with s as above. There are options for frame-rate, etc. –  Janus Mar 2 '11 at 1:55