Chapter 1: Introduction

(dimensions, units, fluid mass and weight, compressibility, vapor pressure, viscosity)

Chapter 2: Fluid Statics

(pressure, manometers, hydrostatic forces, force balance, buoyancy)

Chapter 3: Elementary Fluid Dynamics

(streamlines, Bernoulli equation, energy lines)

Chapter 4: Fluid Kinematics

(velocity field, acceleration field, control volume, Reynold's transport theorem)

Chapter 5: Finite Control Volume Analysis

(continuity equation, Newton's second law, thermodynamics)

Chapter 6: Differential Analysis of Fluid Flow

(fluid elements, mass conservation, momentum conservation, inviscid flow, viscous flow)

Chapter 7: Dimensional Analysis, Similitude, and Scaling

(dimensional analysis, Buckingham Pi, similitude)

Chapter 8: Viscous Flow in Pipes

(pipe flow, laminar flow, developed flow)

Chapter 9: Flow over Immersed Bodies

(boundary layers, drag, lift)

Chapter 10: Open-Channel Flow

(surface waves, channel flow, varied flow)

Chapter 11: Compressible Flow

(Mach number, isentropic flow, compressible flow)

Chapter 12: Turbomachines

(pumps, fans, turbines)

---

Hold mouse over screencast title for description. Make sure you have the latest QuickTime plugin installed or Windows Media Player. Videos play best in Chrome, FireFox and Safari (make sure to have latest updates).

Videos can be downloaded by going to the Vimeo site located under each movie and signing up for free basic account. ("About this video"…"Download this video"...Right click... "Save Link As…").

---

Back to fluids screencasts
Go to Vimeo Channel: Fluids
Go to YouTube Channel: LearnCheme

Funded by the National Science Foundation and the Department of Chemical and Biological Engineering at the University of Colorado Boulder with support from Shell and the Engineering Excellence Fund at the University of Colorado Boulder.