Generalized Reynolds equation; thermal, turbulent, inertia, fluid compressibility, and surface roughness effects on sliding bearings; fatigue, scuffing, and wear in elastohydriodynamic contact; ...

Learn theory and fundamental principles of molecular simulation techniques nanomechanics and biomechanics. Apply molecular simulation tools to explain nanoscale solid and fluid mechanics phenomena ...

Geometric modeling, dimensioning systems, tolerances, design for manufacture, programming of machine tools. Team problem solving in a design and manufacturing technology environment. ME 340-2 is the ...

Fundamentals of surface contact: surface topography, asperity contact, interfacial phenomena. Friction theories and wear mechanisms. Temperatures in sliding contacts. Hydrodynamic, hydrostatic, ...

Representations of the configuration and spatial motion of rigid bodies and robots based on modern screw theory. Forward, inverse, and differential kinematics. Robot dynamics, trajectory planning, and ...

This is a first-of-its-kind graduate course dedicated to engineering students who are interested in taking their research beyond lab novelty. If you are a student of technology who is full of ideas ...

The objective is to give students an introduction to the essential fluid mechanical concepts needed to work in some of the most contemporary areas of mechanical engineering: microfluidics, ...

Seminar course covering techniques for teaching and technical presentation skills, organizational issues associated with teaching and presentations. Active teaching duties will be assigned during the ...