Fundamentals of the science of energy production and utilization and their impact on the environment. This course is for graduate students or advanced undergraduates primarily in mechanical, chemical, ...

MEMS and Nanotechnology have attracted significant attention in the engineering, chemistry, and biology communities. An important component of this development is experimentation with the ability to ...

Course Description: This course provides a practical introduction to the Finite Element Method (FEM), with an emphasis on hands-on implementation using Python. It covers the basic theoretical concepts ...

This is an introductory course on cell and biomaterials mechanics. The objective of the course is to present concepts of cell mechanics in the context of cell biology, physiology, and biophysics. In ...

Basis for advanced courses in fluid dynamics. Stress, flow kinematics, rate of strain, material derivatives, and general balance equations. Navier -Stokes equations and exact solutions.Course Syllabus ...

Structures fail due to improper manufacturing, accidents (overloads), and aging (fatigue, environmental damage). Intelligent Structural Health Management (ISHM) systems seek to prevent catastrophic ...

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

Thermodynamics concerns the foundation of all branches of physical sciences. Therefore, this is a required course for all mechanical engineering students. Also, the students of all other branches of ...

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 ...

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 ...

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, ...