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Science News
November 1, 2003
Ivars Peterson |
Strolling Down Mobius Lane The geometry of the Mobius band has great potential as an architectural form -- one that is difficult to investigate even with the aid of digital technologies.   |
Science News
February 5, 2005
Ivars Peterson |
Knot Divided in Snow Mathematical forms are no longer unusual sights at the annual International Snow Sculpture Championships in Breckenridge. Mathematician Stan Wagon of Macalester College in St. Paul, Minn., and his team have carved huge blocks of snow into graceful geometric shapes. |
Chemistry World
October 3, 2010
Manisha Lalloo |
DNA origami with a twist Researchers in the US have designed and synthesised a nanoscale Mobius strip out of DNA origami. |
Science News
July 8, 2000
Ivars Peterson |
Mobius and his Band Discovered in a purely mathematical context, the Mobius strip is the best known of the various toys of topology. Since its discovery in the 19th century, it has also achieved a life of its own beyond mathematics---in magic, science, engineering, literature, music, and art... |
Science News
September 2, 2000 |
Mobius at Fermilab A description of three-dimensional variants of the Mobius band and mathematical forms in art. |
Science News
May 20, 2006
Ivars Peterson |
Mobius at the Shopping Mall A shopping mall near Caltech in Pasadena, California, features a giant Mobius strip disguised as a public bench created by conceptual artist and architect Vito Acconci. |
Science News
April 26, 2003
Ivars Peterson |
Recycling Topology On the topology of an interesting form: the recycling symbol |
Science News
December 20, 2003
Ivars Peterson |
Sculpting with a Twist Japanese artist Keizo Ushio's fascinating sculptures provide a vivid introduction to the unsuspected intricacies of slicing bagels and cutting Mobius bands. |
Science News
May 25, 2002
Ivars Peterson |
Crystal Mobius Physicists in Japan have come up with a technique for twisting a crystalline ribbon of niobium selenide into a Mobius strip. |
IndustryWeek
January 1, 2007
Jill Jusko |
Materials -- Shape-Shifting Plastics New class of material can assume different shapes based on heat applications. |
Science News
November 17, 2007
Julie J. Rehmeyer |
Math Trek: A Video That's Worth a Million Words Award-winning video reveals the simplicity and beauty of an abstract mathematical tool. |
Chemistry World
October 9, 2014
Katrina Kramer |
Largest Mobius molecule synthesized Researchers from Korea and Japan have put a new twist on aromaticity, synthesizing the largest Mobius aromatic molecule to date. |
Chemistry World
July 6, 2012
Laura Howes |
Mobius molecules with a twist Glasgow-based chemists have managed to make a chiral molecule from achiral starting materials by using a simple Mo 4O 8 unit to introduce a twist to the cluster and turn it into a Mobius strip. |
Chemistry World
January 8, 2016
Simon Hadlington |
New shape memory polymer with a permanent twist The new kind of polymer's permanent shape can be changed multiple times, with the features from the previous shape remaining locked into the structure. |
Technology Research News
April 6, 2005 |
Water Shifts Rubber's Shape Researchers have developed a material that can be shaped, but changes back to a permanent shape when immersed in water. |
Science News
June 9, 2001
Ivars Peterson |
Mobius Accordion Artist Susan Happersett of Jersey City, N.J., has come up with a novel twist on the venerable Mobius strip: a playful, eye-catching creation she describes as a Mobius accordion... |
Chemistry World
March 10, 2010
Simon Hadlington |
Shape-shifting polymers A US researcher has shown how a so-called shape memory polymer - a material which can take on a temporary shape and then return to its permanent shape in response to an external stimulus - has the unusual ability to 'memorize' a range of different shapes. |
Linux Journal
May 2000
James Norton |
Dynamic Class Loading for C++ on Linux A technique that will provide developers with much flexibility in design. |
Chemistry World
September 29, 2015
Jon Cartwright |
Graphene band gap heralds new electronics Scientists in the US and France have produced graphene with a record high band gap of half an electronvolt (0.5 eV), which they claim is sufficient to produce useful graphene transistors. |
