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bib
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« on: February 15, 2009, 07:28:10 PM » |
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And it tasted very good   |
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Between order and disorder reigns a delicious moment. (Paul Valéry)
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cKleinhuis
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« Reply #1 on: February 15, 2009, 08:07:07 PM » |
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hmm, yummy!  |
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divide and conquer - iterate and rule - chaos is No random!
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twinbee
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« Reply #2 on: February 16, 2009, 11:28:41 PM » |
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Does it taste better than normal broccoli?
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bib
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« Reply #3 on: February 17, 2009, 09:47:22 AM » |
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Does it taste better than normal broccoli?
They're a bit sweeter. More important, you really feel like like eating the fractal texture, it's fun |
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Between order and disorder reigns a delicious moment. (Paul Valéry)
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matsoljare
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« Reply #4 on: February 18, 2009, 03:48:57 PM » |
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Now here's a challange... can anyone manage to "reverse engineer" the Romanesco shhape into a proper 3d fractal? There's some Julia set which looks a lot like it, but it's 2d, and it would be interesting to see if someone can nail the full 3d structure!
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David Makin
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« Reply #5 on: February 18, 2009, 08:11:25 PM » |
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Now here's a challange... can anyone manage to "reverse engineer" the Romanesco shhape into a proper 3d fractal? There's some Julia set which looks a lot like it, but it's 2d, and it would be interesting to see if someone can nail the full 3d structure!
This is the closest I've seen: http://geon-therealone.deviantart.com/art/Fractal-Cone-82145104 |
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Nahee_Enterprises
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« Reply #6 on: February 19, 2009, 10:35:25 PM » |
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Now here's a challange... can anyone manage to "reverse engineer" the Romanesco shhape into a proper 3d fractal? I believe Garth Thornton created one using his program XenoDream, but at the moment I can not find the link to it. I will see if I can locate it later on when I have a few more spare minutes. |
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« Last Edit: March 30, 2010, 01:37:57 AM by Nahee_Enterprises »
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Hypnogems
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« Reply #7 on: April 30, 2009, 04:04:56 AM » |
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Now here's a challange... can anyone manage to "reverse engineer" the Romanesco shhape into a proper 3d fractal? There's some Julia set which looks a lot like it, but it's 2d, and it would be interesting to see if someone can nail the full 3d structure!
I think this comes a little bit closer...its from Incendiascript, a new feature of Incendia 1.2.x. Script written by program author Aexion; all I did was add color and render. http://www.fractalforums.com/gallery/?sa=view;id=607 |
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Cyclops
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« Reply #8 on: August 31, 2009, 02:50:29 PM » |
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Food for thought eh!
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Sensitively dependant on initial conditions  |
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David Makin
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« Reply #9 on: October 31, 2009, 04:27:24 AM » |
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Found this a couple of weeks ago:
<![CDATA[<a href="http://www.youtube.com/v/cbmQaQWyz-k&rel=1&fs=1&hd=1" target="_blank">http://www.youtube.com/v/cbmQaQWyz-k&rel=1&fs=1&hd=1</a>]]> |
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Buddhi
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« Reply #10 on: October 31, 2009, 12:28:32 PM » |
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Similarity is amazing!!!!  |
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bib
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« Reply #11 on: November 06, 2009, 09:03:52 PM » |
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nice broccoli at 1:30 in this video
<![CDATA[<a href="http://www.youtube.com/v/pozcRbMLBE4&rel=1&fs=1&hd=1" target="_blank">http://www.youtube.com/v/pozcRbMLBE4&rel=1&fs=1&hd=1</a>]]> |
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Between order and disorder reigns a delicious moment. (Paul Valéry)
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Cyclops
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« Reply #12 on: November 28, 2009, 10:15:06 PM » |
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nice broccoli at 1:30 in this video
<![CDATA[<a href="http://www.youtube.com/v/pozcRbMLBE4&rel=1&fs=1&hd=1" target="_blank">http://www.youtube.com/v/pozcRbMLBE4&rel=1&fs=1&hd=1</a>]]>Fabulous video! I'm gonna post that on facebook! |
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Sensitively dependant on initial conditions |
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oftakofta
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« Reply #13 on: December 28, 2009, 02:07:51 PM » |
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Just a quick thought experiment. If one were to take high resolution time-lapse photographs of growing Romanesco broccoli, would it be possible to calculate the in vivo growth rate of the plant cells using the best-fitting formula for mathematical Romanesco? Let us suppose we can capture detail down to the diffraction limit of optical microscopy (~0.2µm, disregard that you actually can see the cells dividing at this magnification). Alternatively, given the time-lapse growth data, could you derive a formula for the shape of Romanesco assuming 1 iteration = 1 cell division cycle?
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two b&w 3d fractals
3D Fractal Generation
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