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Learn about soft robotics at the Dean’s Distinguished Lecture, April 4

April 04, 2018–April 04, 2018

College Avenue Commons (CAVC) 101, Tempe campus

Learn about how flexible invertebrates such as starfish, worms and octopi can inspire robot designs that provide opportunities in materials and polymer science in this lecture hosted by Fulton Schools Dean Kyle Squires.

Engineering Dean’s Distinguished Lecture: Soft Robotics
Presented by George M. Whitesides, Woodford L. and Ann A. Flowers University Professor, Harvard University

Wednesday, April 4, 2018
Seminar: 3–4 p.m.
Reception: 4–4:30 p.m.
College Avenue Commons (CAVC) 101, Tempe campus [map]
Register to attend by Friday, March 30, 2018

ABSTRACT
Robotics is a field with broad interest: it combines mechanical engineering, information science and animal physiology with manufacturing, workforce development, economics and other areas. The most highly developed classes of robots have been built based on conceptual models provided by the body plans of animals with skeletons (such as humans and horses), and have made it possible to carry out tasks that humans and animals could not, for a variety of reasons.

Whitesides is interested in robots based on a different, simpler class of organisms: invertebrates, such as starfish, worms and octopi. Because these organisms, and the robots having designs stimulated by them, have no skeletons, they provide enormous opportunities in materials and polymer science, rather than primarily in mechanical engineering.

This seminar will outline one approach to soft robots, and suggest problems and opportunities in this new field.

ABOUT THE SPEAKER
George M. Whitesides received his AB degree from Harvard University in 1960, and his PhD from the California Institute of Technology in 1964 (with J.D. Roberts). He began his independent career at MIT, and is now the Woodford L. and Ann A. Flowers University Professor at Harvard University.

His current research interests include physical and organic chemistry, materials science, biophysics, water, self-assembly, complexity and simplicity, origin of life, dissipative systems, affordable diagnostics and soft robotics.

More information can be found here.