ME 767 Molecular Biomimetics
The lessons learned from biological materials are discussed toward developing novel biomimetic materials and systems using environmentally benign processing. Upon completing this course, students will be able to understand the essential features of biological sciences combined with nano- and molecular technologies for next generation bioinspired, biomimetic and bio-enabled materials and systems. Prerequisite: CHEM 130, CHEM 150 or equivalent; introductory course in Material Science (e.g., ME 306.)
Bachelor of Science in Mechanical Engineering
The 128-hour bachelor of science degree in mechanical engineering offered by the Department of Mechanical Engineering is accredited by the Engineering Accreditation Commission of ABET, http://www.abet.org . Students typically take four years to complete the program. The mechanical engineering curriculum builds on the basic foundation of mathematics and physical sciences learned in the first three semesters, and then focuses on engineering design and analysis in mechanical, thermal, fluids, and energy systems. First-year students are quickly immersed in hands-on design/build team projects as part of the cornerstone mechanical engineering courses. Engineering science, analysis, and design are integrated throughout the curriculum, culminating in a senior capstone design project where students complete a year-long hands-on design and build experience in one of three areas:
Bachelor of Science in Engineering Physics
...Mechanics ME 210 Introduction to Mechanics 1 ME...Dynamics and Controls), AE 767 (Spacecraft Environments), AE...
Undergraduate Certificate in Bioengineering
...Dynamics ME 767 Molecular Biomimetics ME 760 Biomedical Product Development ME 765 Biomaterials ME 767...
Bachelor of Science in Chemical Engineering
...3 ME 306 Science of Materials 3 ME 311 Mechanics of Materials 3 ME 767...