tag:blogger.com,1999:blog-480555353132580100.post4802430831250752317..comments2023-08-14T15:06:26.463+01:00Comments on ErkDemon: Cool Circley Fractal!ErkDemon (Eric Baird)http://www.blogger.com/profile/00430413494529535159noreply@blogger.comBlogger3125tag:blogger.com,1999:blog-480555353132580100.post-24038672244134869542009-05-15T00:11:00.000+01:002009-05-15T00:11:00.000+01:00The circley fractal was generated using a sine fun...The circley fractal was generated using a sine function, z--> c sin(z). It seems to generate counterparts of (all?) the usual Julia Set images, but with extra repetition and threading. <br /><br />This one was the counterpart of the conventional Julia Set image for coordinates (0,0) (which normally generates a simple non-fractal circle): <br />http://www.relativitybook.com/CoolStuff/julia_set_alt.htmlErkDemon (Eric Baird)https://www.blogger.com/profile/00430413494529535159noreply@blogger.comtag:blogger.com,1999:blog-480555353132580100.post-37086742452615548612009-05-09T11:33:00.000+01:002009-05-09T11:33:00.000+01:00hmm, lotsa circles in the blogspot {spot?} backgro...hmm, lotsa circles in the blogspot {spot?} background image...spottyVisionhttp://tailchasersinc.com/noreply@blogger.comtag:blogger.com,1999:blog-480555353132580100.post-26369598463512913452009-02-16T17:10:00.000+00:002009-02-16T17:10:00.000+00:00Yep, there are infinitely many julia sets composed...Yep, there are infinitely many julia sets composed "entirely" (mathematical rigor pending) of circles. I'd practically forgotten about them, they are pretty cool.Anonymousnoreply@blogger.com