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01 June 2009

This was unexpected (bit of a technicolor headache there, sorry, but I'll explain)[More:]I will avoid too-technical details, but that came out of some research I'd been working on with a student. Each row represents the expansion of a positive numer in an exotic 'fractional base' system - in this case, instead of good old decimal digits, we have a 'base 63/64' system, with 'digits' from 0 to 62. The first row of pixels is a color-coded sequence of digits that represents '1', the second row is a sequence that represents '2', and so on.

We studied these arrays of digits and proved a lot of good (and, above all, neat) theorems - but for some reason, I'd never thought to make an image out of the array. Today, after almost two years away from the problem I came back to it and decided to try plotting things. The results for "base 3/4" or "base n/(n+1)" when n is fairly small were just a jumbled mess - these were the cases we'd spent the most time on. But when I pushed n up to moderate sizes I suddenly got these amazing cascading pools and spirals. Each row can be continued indefinitely to the right, and if I extended it enough you'd see them all fall into chaos (it's beginning to happen in the upper right corner already). I have no idea what to make of this unexpected structure - which I never would have noticed from looking at small tables of digits - or if the striking visual patterns have any useful meaning whatsoever. Still, I thought it was a vibrant reminder that there's always another view to be had, on any vexing problem.
*takes another hit off Wolfdog's rolled-up presentation*
posted by dhartung 01 June | 17:43
Yeah if I were really on my game I'd have made an animated gif with color cycling, and you could trip out staring at that for a long time, but I'm not and I didn't.
posted by Wolfdog 01 June | 17:45
One of my life's mantra's has been "Think small, do big."
posted by Ardiril 01 June | 18:06
That's very cool! And I like the thought about there always being another view. I know I'll think of the visual and the lesson learned next time I'm trying to figure out how to solve one of the many problems in my (relatively new) job. Thanks.
posted by nelvana 01 June | 19:27
Math is hard.

Seriously, I'm envious/jealous of those who can understand the higher stuff like that. I barely got my ass through Algebra 1.
posted by deborah 01 June | 19:45
Cool. First thing I thought of was mandlebrot and fractals. A buddy of mine in school did his thesis on using fractal analysis to do voice recognition.
posted by lysdexic 01 June | 21:09
Nifty way to image it. I'd consider it as a great screen saver, but think I'd go blind pretty quickly!

Course, I understand about zilch of your math description, except that taking time off and re-visualizing the issue is a good way to problem-solve. Now, that goes way beyond the initial concept!
posted by mightshould 02 June | 07:29
Whap! Whap caplet snap! Flap the hacked slap up right, not tight - flight! Turn the churn sight height, Upper Right!

Those throb knobs are hobbled small nearest the wall.
posted by Lipstick Thespian 02 June | 09:35
Wow, that's so cool -- can't wait to show this to some of more mathematically-educated friends who might even be able to *really* explain it to me.

Seriously, finding lovely and intricate patterns in apparent chaos is one of the neatest things in the world, IMO.
posted by treepour 02 June | 22:43
"The streets were dark with something more than night. " || Sign O' The Times

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