Nanoscale sensors, mechanical and electrical systems, molecular electronics for memory and computing, novel materials. Scientific and engineering properties of nanoscale systems. Students interested ...

Nanoscale sensors, mechanical and electrical systems, molecular electronics for memory and computing, novel materials. Scientific and engineering properties of nanoscale systems. Students interested ...

The Master of Science in Mechanical Engineering program prepares talented students and career professionals for exciting careers in automotive, aerospace, energy, robotics, bioengineering and ...

Mechanical engineering research labs and institutes house research conducted by our world-renowned faculty, funded by the National Science Foundation, National Institute of Health, and many other ...

"Nanotechnology, robotics, airplanes... mechanical engineering is the broadest discipline." Computational modeling can be used to facilitate the development of new materials and technologies for a ...

Mechanical engineers work with materials from the nanoscale to airplanes and rockets. They are involved in creating and improving mechanical systems such as self-driving cars, aerial drones, the ...

A multi-disciplinary core curriculum is taken by students from diverse science and engineering backgrounds. These 'core' courses are intended to introduce students to contemporary topics in ...

Industries employing mechanical engineers include automotive, aircraft, heating and air conditioning, power generation, oil and gas, manufacturing, defense/military, medical devices, nanotechnology ...

As a mechanical engineer, your knowledge of mechanics ... composites and computational fluid dynamics. The MSc/MASc in Nanoscience and Nanotechnology introduces students to a broad range of theories ...