We learn the basic principles of momentum transfer related to fluid motion. The key concepts are taught along with the derivation of fundamental equations that govern fluid flows.
Such concepts include material volume, linear momentum principle, kinematics, stress tensor, dimensional analysis, etc. Several application problems are also covered for better understanding of governing principles.

The lecture is intended for undergraduate students with a chemical engineering background as many of the course material will put specific emphasis on the relevant concepts.
For graduate students, please take the graduate level transport phenomena course (CHEB642) instead.

Attendance (5%), HW (15%), Mid term (40%), Final (40%)

No required textbooks
- Lecture notes and additional materials will be distributed

References:
1. S. Whitaker, "Introduction to Fluid Mechanics", Krieger (1986) - will be referred the most
2. R.B. Bird, W.E.Stewart, and E.N.Lightfoot, "Transport Phenomena", 2nd ed, Wiley International, N.Y.(2002)
3. R.F. Probstein, "Physicochemical hydrodynamics: An introduction", Butterworths (1989)

Lecture Plan:
1. Introduction to transport phenomena & fluid mechanics
2. Vector tensor analysis
3. Fluid statics
4. Kinematics
5. Stress in a fluid
6. Constitutive equation
7. Dimensional analysis
8. 1D laminar flow