Comments for Geometry in color
https://geometricolor.wordpress.com
hacking symmetriesTue, 13 Feb 2018 12:54:05 +0000hourly1http://wordpress.com/Comment on Curves by Peter Stampfli
https://geometricolor.wordpress.com/2017/01/02/curves/#comment-660
Tue, 13 Feb 2018 12:54:05 +0000http://geometricolor.wordpress.com/?p=2149#comment-660It is of the form discussed in this article. N=5. For more details look at the source code of the page http://bookofgames.ch/curves.html that generates the image.
]]>Comment on Elliptic kaleidoscopes by Peter Stampfli
https://geometricolor.wordpress.com/2017/12/05/elliptic-kaleidoscopes/#comment-652
Tue, 19 Dec 2017 19:37:02 +0000http://geometricolor.wordpress.com/?p=2832#comment-652Unfortunately not yet. I am still exploring things. If you know well HTML and JavaScript you might want to look at my Github repository: https://github.com/PeterStampfli/creatingSymmetries. It has all the code needed to create such websites. Unfortunately it is a bit messy.
]]>Comment on Elliptic kaleidoscopes by Para Parasolian
https://geometricolor.wordpress.com/2017/12/05/elliptic-kaleidoscopes/#comment-651
Mon, 18 Dec 2017 20:49:03 +0000http://geometricolor.wordpress.com/?p=2832#comment-651Do you have an interactive website for each of your articles where I can try to generate the results with my own images?
]]>Comment on Curves by Para Parasolian
https://geometricolor.wordpress.com/2017/01/02/curves/#comment-649
Fri, 15 Dec 2017 15:22:44 +0000http://geometricolor.wordpress.com/?p=2149#comment-649What is the equation for the example curve above?
]]>Comment on Geometry of kaleidoscopes with periodic images by Further hyperbolic kaleidoscopes | Geometry in color
https://geometricolor.wordpress.com/2014/02/01/geometry-of-kaleidoscopes-with-periodic-images/#comment-641
Wed, 22 Nov 2017 19:36:10 +0000http://geometricolor.wordpress.com/?p=2062#comment-641[…] In hyperbolic space you have an infinity of different kaleidoscopes. […]
]]>Comment on Geometry of kaleidoscopes with periodic images by A hyperbolic kaleidoscope | Geometry in color
https://geometricolor.wordpress.com/2014/02/01/geometry-of-kaleidoscopes-with-periodic-images/#comment-637
Wed, 15 Nov 2017 20:07:50 +0000http://geometricolor.wordpress.com/?p=2062#comment-637You can make kaleidoscopes in hyperbolic space too, as discussed in the later post “A hyperbolic kaleidoscope”.
]]>Comment on Self-similarity and color modification by images with 5-fold symmetry and color change indicating self-similarity | Geometry in color
https://geometricolor.wordpress.com/2017/08/27/self-similarity-and-color-modification/#comment-623
Fri, 15 Sep 2017 19:05:42 +0000http://geometricolor.wordpress.com/?p=2676#comment-623[…] Here you can see more images with 5-fold rotational symmetry and color change derived from self-similarity. […]
]]>Comment on Rotational symmetry from space with an even number of dimensions by Improved symmetric sum | Geometry in color
https://geometricolor.wordpress.com/2017/06/22/rotational-symmetry-from-space-with-an-even-number-of-dimensions/#comment-582
Mon, 10 Jul 2017 13:10:00 +0000http://geometricolor.wordpress.com/?p=2477#comment-582I’ve found a better way how to write the sums of the posts “Rotational symmetry from space with an odd number of dimensions” and “Rotational symmetry from space with an even number of dimensions“. It is more compact, shows how to calculate the sums efficiently and comes in handy for discussing the color symmetries[…]
]]>Comment on Rotational symmetry from space with an odd number of dimensions by Improved symmetric sum | Geometry in color
https://geometricolor.wordpress.com/2017/06/14/rotational-symmetry-from-space-with-an-odd-number-of-dimensions/#comment-581
Mon, 10 Jul 2017 13:09:58 +0000http://geometricolor.wordpress.com/?p=2421#comment-581I’ve found a better way how to write the sums of the posts “Rotational symmetry from space with an odd number of dimensions” and “Rotational symmetry from space with an even number of dimensions“. It is more compact, shows how to calculate the sums efficiently and comes in handy for discussing the color symmetries[…]
]]>Comment on Conway’s game of life on a hexagonal lattice by Burton Hohler
https://geometricolor.wordpress.com/2013/01/16/conways-game-of-life-on-a-hexagonal-lattice/#comment-566
Mon, 05 Jun 2017 01:54:46 +0000http://geometricolor.wordpress.com/?p=968#comment-566Hello! This is my first visit to your blog! We are a collection of volunteers and starting a new project in a community in the same niche. Your blog provided us beneficial information to work on. You have done a marvellous job!
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