Using community-based participatory research methods, technology and social behavior PhD student Connie Chau is building a ...

Human-Computer Interaction (HCI) serves as the bridge between computing and humanity. The effective design of HCI systems requires a keen understanding of how interfaces and computer systems usefully ...

Analysis and control of microstructures. Quantitative process/structure/property/performance relations with case studies. Computer lab for modeling multicomponent ...

Introduction to ceramic, metal, and polymer-matrix composites primarily for structural applications. Reinforcements such as particles (including nano particles), whiskers and fibers, their processing ...

This course covers the theory and application of atomic-scale computational materials tools to model, understand, and predict the properties of real materials. The course will cover quantum-mechanical ...

The student should be able to understand the synthesis-structures-properties-applications relationship of conducting polymers. They should be able to: ...

The student group’s expandable technology was recognized as having the best potential to contribute to NASA’s future Artemis moon missions.

Designed by a team with Professor James Rondinelli, the material represents a paradigm shift in how we think about this class ...

Strategies and methods of designing, manufacturing, and testing of mechanical products. Engineering drawing and CAD, design methods, material properties, failure modes, selection methodology, ...

MATH 220 and 224 or MATH 212, 213 and 214; MATH 230, 234 or equivalent (e.g. 290-2,3 or 291-2,3) CHEM Lecture/lab: 110, 131/141 and 132/142 or 151/161 and 152/162 or 171/181 and 172/182 One course in ...

As an Electronics and Telecommunications engineer with a deep passion for the transformative potential of AI, Dev is dedicated to bridging the gap between cutting-edge technology and real-world ...