Fluid Mechanics 6.1 -Conservation of Momentum - Control Volume Analysis

This segment covers the derivation and discussion of the Conservation of Momentum equation, including the special cases.
Table of Contents:
6:28 - Special Case 1: Steady
9:15 - Special Case 2: Steady and Uniform flow
12:55 - Forces that must be considered for the left-hand side of the conservation of mass equation (pressure forces, viscous forces, gravitational forces)


Module 6 - Conservation of Momentum:
The conservation of momentum can be derived from Newton's second law. The time rate of change of the linear momentum of the system = Sum of external forces acting on the system. After establishing a control volume, we can apply Reynold's Transport Theorem by substituting in momentum for B.

Student Learning Outcomes:
After completing this module, you should be able to:
1) Select an appropriate finite control volume to solve the conservation of momentum equation. 
2) Apply conservation of momentum to the contents of a finite control volume to get essential answers
3) Explain how velocity changes in fluid flows are related to forces This material is based upon work supported by the National Science Foundation under Grant No. 2019664. Any opinions, findings, and conclusions, or recommendations expressed in this material are those of the author and do not necessarily reflect the views of the National Science Foundation.