$200,000 National Science Foundation grant for University of Nevada, Reno. nanotechnology and skiing VIDEO, MPEG4 30 mb
RENO, Nev. – Nanotechnology seems a daunting subject, but for mechanical engineering students at the University of Nevada, Reno, it has taken on a real world approach – in Ski Building 101.
"Yes, we're going to make skis. No, it's not really Ski Building 101," said Kam K. Leang, the faculty member and principal investigator for a project to further integrate nanotechnology into the undergraduate curriculum at the University.
Leang and two colleagues at the University, Jonghwan Suhr and John Cannon, aim to prepare 21st century mechanical engineers at the University to meet the emerging challenges of nanotechnology using a top-down approach where the first important step is to excite them about the technology.
As fun as it may be, the curriculum isn't just for building skis. Practical, easy-to-relate-to macro-scale applications such as aerospace structures and wind-energy turbine blades will also be introduced into sophomore- and junior-level courses. The technical engineering challenges and need for improving functionality of all of these applications will be presented and then linked to solutions offered by nanotechnology.
To further reinforce the concepts, a suite of capstone-level design projects which includes nanocomposite-based wind-energy turbine blades and snow skis will be developed for students entering their senior year of study after being introduced to these applications in previous years.
"I'm developing the teaching modules for dissemination to other universities such as in Vermont, Colorado, Utah and other ski towns with engineering programs nearby," Leang said. "I envision a competition like the annual concrete canoe races where we will all design and manufacture our skis under a set of rigorous yet creative parameters and then race them."
Leang will work closely with Jonghwan Suhr, co-principal investigator, nanomaterials expert and faculty member of the mechanical engineering department, and John Cannon, co-principal and a faculty member in the University's education department to develop the new curriculum.
The new Energy Efficient Systems and Dynamic Structures mechanical engineering curriculum is made possible through a $200,000 grant through the National Science Foundation's Nanotechnology Undergraduate Education in Engineering program. ###
Nevada's land-grant university founded in 1874, the University of Nevada, Reno has an enrollment of nearly 17,000 students. The University is home to one the country's largest study-abroad programs and the state's medical school, and offers outreach and education programs in all Nevada counties. For more information, visit www.unr.edu.
Contact: Mike Wolterbeek mwolterbeek@unr.edu WEB: University of Nevada, Reno
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