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MODULE 13 - Fluid Dynamics: Acceleration Field, Control Volume, Mass and Volume Flow Rates
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This Module of the Fluid Mechanics Lecture Series covers:
- Acceleration Field
- Definition of Material Derivative / Lagrangian Derivative / Total Derivative
- Solved Example Problem on Acceleration Field for an Inviscid, Incompressible, Steady Flow over a Cylinder
- Definition of Control Volume and Control Surface, Discussion on Fixed and Movable / Deformable Control Volume
- Definitions of Mass Flow Rate and Volume Flow Rate; Introduction to Conservation of Mass
Textbook:
Donald F. Elger, Barbara C. Williams, Clayton T. Crowe, John A. Roberson. Engineering Fluid Mechanics. Wiley, 11th Edition.
This Module is Part of the Introduction to Fluid Mechanics Video Lecture Series by Dr. Firat Y. Testik in the Civil and Environmental Engineering Department at the University of Texas at San Antonio, United States.
- Acceleration Field
- Definition of Material Derivative / Lagrangian Derivative / Total Derivative
- Solved Example Problem on Acceleration Field for an Inviscid, Incompressible, Steady Flow over a Cylinder
- Definition of Control Volume and Control Surface, Discussion on Fixed and Movable / Deformable Control Volume
- Definitions of Mass Flow Rate and Volume Flow Rate; Introduction to Conservation of Mass
Textbook:
Donald F. Elger, Barbara C. Williams, Clayton T. Crowe, John A. Roberson. Engineering Fluid Mechanics. Wiley, 11th Edition.
This Module is Part of the Introduction to Fluid Mechanics Video Lecture Series by Dr. Firat Y. Testik in the Civil and Environmental Engineering Department at the University of Texas at San Antonio, United States.
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