| Call Number | 11474 |
|---|---|
| Day & Time Location |
TR 11:40am-12:55pm 633 Seeley W. Mudd Building |
| Points | 3 |
| Grading Mode | Standard |
| Approvals Required | None |
| Instructor | Kyle Bishop |
| Type | LECTURE |
| Method of Instruction | In-Person |
| Course Description | Continuum frame-work for modeling non-equilibrium phenomena in fluids with clear connections to the molecular/microscopic mechanisms for conductive transport. Continuum balances of mass and momentum; continuum-level development of conductive momentum flux (stress tensor) for simple fluids; applications of continuum framework for simple fluids (lubrication flows, creeping flows). Microscopic developments of the stress for simple and/or complex fluids; kinetic theory and/or liquid state models for transport coefficients in simple fluids; Langevin/Fokker- Plank/Smoluchowski framework for the stress in complex fluids; stress in active matter; applications for complex fluids. |
| Web Site | Vergil |
| Department | Chemical Engineering |
| Enrollment | 31 students (55 max) as of 7:06PM Thursday, October 30, 2025 |
| Subject | Chemical Engineering |
| Number | E4110 |
| Section | 001 |
| Division | School of Engineering and Applied Science: Graduate |
| Section key | 20253CHEN4110E001 |