This course will cover advanced topics in the development and analysis of numerical methods for simulation of rigid body motion. Topics will include forward error ...

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 ...

Introduction to the finite-element method for stress analysis with emphasis on linear elasticity. Computer implementation of finite element techniques: finite-element code development and modification ...

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 ...

This course is designed for engineering graduate students who are interested in furthering their knowledge in advanced and emerging methods of engineering design, with the focus on computational ...

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

Technological Institute 2145 Sheridan Road, Room B224, Evanston, IL 60208 ...

Technological Institute 2145 Sheridan Road, Room B224, Evanston, IL 60208 ...

Computational fluid dynamics is an important tool to investigate fluid flow problems in industry and academia. This course can be taken without prior background in computational techniques. A ...

None, however, undergraduate level knowledge of mechanics, probability and dynamics is helpful.

Manipulation of matter at the nanometer length scale to produce useful devices and materials. Nanoscale sensors, mechanical and electrical systems, molecular electronics for memory and computing, ...

See course description for ME 327.