I'll be giving an online webinar on my work, and how to make stereographic projection light sculptures in Rhinoceros (the 3D software I use), November 19, 2018, 8:00AM-10:00AM PST. wiki.mcneel.com/visualizingmat

The Institute for Computational and Experimental Research in Mathematics at Brown University has six post doctoral positions available for our Illustrating Mathematics Fall 2019 semester program. Please apply if you are a recent PhD with an interest in mathematical illustration! mathjobs.org/jobs/jobs/11969

Edmund Harris and I built a MathMechs extensor diamond lattice inside of a Curvahedra Schwarz D surface.

‪This time I automated the squares layout and associated html/css with python, so it will be much easier to update in the future!‬

I updated my website segerman.org to link to a few new things. There’s also a new page collecting together my virtual reality projects.

Video version of the instruction booklet for our MathMechs extensor construction kit! youtube.com/watch?v=eIlhcfUvt-

This seems like a hard problem: how do you make a physically manipulable (or at the very least a visual) representation of a puzzle whose moves are not associative?


‪Video version of the instruction booklet for our MathMechs extensor construction kit! youtu.be/eIlhcfUvt-o‬

We are hiring! The Department of Mathematics at Oklahoma State has two tenure track positions available. Let me know if you have any questions I might be able to answer, and also if you're planning to apply!


#introduction Hi, I've been using Google+ for having interesting discussions on mathematics and physics, particularly visualistations using 3D prints, animations. Since Google+ might be shutting down, I'm trying Mastodon.
I just salvaged all my old posts, and put them on a website:
Here is an example of graphics I do:

Working on the video for our extensor™ construction kit - accidentally producing music! MathMechs.com

Our extensor™ construction kit is now available to purchase from mathartfun.com/Polydron.html!

This animation shows one of the key principles of the extensor system: the extending motion can “turn corners” to make larger expanding structures.

There! This is a 'proper' Delaunay Triangulation and Voronoi Diagram. I did mess up in a few places with the lines for the Voronoi part though, I was still freehanding it and not using pencil guidelines XD

#MastoArt #Math

Our extensors mechanism construction kit is almost ready to ship! It will be available from mathartfun.com. This animation shows one of the basic principles - you can "unwrap" a standard scissor linkage around its axis of symmetry to make "branched" scissor linkages.

Animated version of my Geared Jitterbug (joint work with @sabetta) I learned how to make this kind of animation in Rhino/Grasshopper at Construct3d conference over the weekend, with some help from Edmund Harriss.

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A Mastodon instance for maths people. The kind of people who make \(\pi z^2 \times a\) jokes.

Use \( and \) for inline LaTeX, and \[ and \] for display mode.