Your Childhood Was Lame: Tops Don’t Have to Be Round Anymore

By Elizabeth Preston | August 15, 2014 8:16 am

elephant screenshotSure, the baby doll that closed her eyes when you held her horizontally was kind of cool. But she’s not much competition for a break-dancing armadillo.

Researchers at Disney Research Zurich—who normally work on computer graphics, video manipulation, and animation—recently took a spin in the physical world instead. Along with researchers at the Swiss Federal Institute of Technology Zurich, they developed an algorithm that can take any solid 3D object and turn it into a top.

To understand the challenge, think of spinning a teapot on a single point. It’s round, sure—but between “here is my handle” and “here is my spout,” it’s unbalanced and won’t stay up.

http---makeagif.com--media-8-14-2014-_hFbzv

The researchers’ algorithm started with the solid shape of the teapot and determined where to carve out spaces inside to make the form balanced. Then they printed out the new shape, with its weird internal gaps, on a 3D printer. (Because of the complex shapes involved, they had to print the plastic forms in more than one piece and glue them together.)

Here are a series of teapots that look normal on the outside, but have their mass redistributed on the inside:

cross section

And now the teapot spins.

http---makeagif.com--media-8-13-2014-3v48Bt

Using the same technique, the researchers were able to make other improbable tops, such as this break-dancing armadillo.

http---makeagif.com--media-8-13-2014-t_89SB

Some shapes needed more than just selective hollowing-out to make them spin. This pirouetting sumo wrestler, for example, wears an internal belt made of metal. The heavier material gives him the extra balance he needs.

http---makeagif.com--media-8-13-2014-6A9KNJ

Other tops the researchers built are more delicate balancing acts that need a tug with a string to get them rotating stably. Here’s an elephant spinning on its toe:

http---makeagif.com--media-8-13-2014-X_yUag

These two slender dancers don’t have much room inside them for hollowing. So the researchers had to add another technique: slightly bending and distorting the original shape to create one that’s stable. The result is a pretty impressive pas de deux.

http---makeagif.com--media-8-13-2014-S3s2lE

And in case tops aren’t your thing, here’s a square yo-yo.

http---makeagif.com--media-8-13-2014-nAwBkG

Aside from making future generations of kids deeply unimpressed with the toys you used to play with, the researchers say their asymmetrical tops have serious applications too. Making the wonky shapes spinnable meant changing a physical feature called the moment of inertia. The authors think their algorithm could inspire new ways of controlling inertia in other settings, such as robotics and animatronics. In other words, childhood is only going to get cooler.

 

Images from Baecher et al., “Spit-It: Optimizing Moment of Inertia for Spinnable Objects.” [VIDEO

Spin-It: Optimizing Moment of Inertia for Spinnable Objects. Moritz Baecher (DR Zürich), Emily Whiting (ETH Zürich), Olga Sorkine-Hornung (ETH Zürich), Bernd Bickel (DR Zürich) ACM Conference on Computer Graphics & Interactive Techniques (SIGGRAPH) 2014 — August 10-14, 2014 Paper [PDF]

MORE ABOUT: Gadgets, Math, Physics
  • http://www.mazepath.com/uncleal/qz4.htm Uncle Al

    A competent dreidel spinner spins them upside down. This is a valuable skill for spinning thumbtacks and broad-headed nails.

  • FeatheredFiend

    Oh I love the sumo wrestler. it’s so funny.

  • Bluestar

    Aww I wish I am still a kid lol

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Inkfish

Like the wily and many-armed cephalopod, Inkfish reaches into the far corners of science news and brings you back surprises (and the occasional sea creature). The ink is virtual but the research is real.

About Elizabeth Preston

Elizabeth Preston is a science writer whose articles have appeared in publications including Slate, Nautilus, and National Geographic. She's also Editor of the children's science magazine Muse, where she frequently writes in the voice of a know-it-all bovine. She lives in Massachusetts. Read more and see her other writing here.

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