Fluid Mechanics

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About Course

This class provides students with an introduction to principal concepts and methods of fluid mechanics.

Topics covered in the course include pressure, hydrostatics, and buoyancy; open systems and control volume analysis; mass conservation and momentum conservation for moving fluids; viscous fluid flows, flow through pipes; dimensional analysis; boundary layers, and lift and drag on the object

Who this course is for:

  1. Aspiring engineers, inventors, hackers, and programmers that want to learn the math and science governing fluid behavior
  2. Beginner engineers
  3. Anyone that wants to brush up on fluid mechanics

What Will You Learn?

  • Discuss (qualitatively and quantitatively) various fluid mechanic phenomena
  • Analyze flow problems
  • Derive, smplify, and solve equations for fluid mass and momentum conservation

Course Content

Fluid Mechanics

  • Buoyancy: Example 2: Part 2
    00:00
  • Turbulent Flow Example: Part 1
    00:00
  • Turbulent Flow: Minor Loss Coefficiant Chart
    00:00
  • Turbulent Flow: Moody Chart
    00:00
  • Turbulent Flow: Relative Roughness Chart
    00:00
  • Introduction to Turbulent Flow
    00:00
  • Pipe Flow: Example 1: Part 2
    00:00
  • Pipe Flow: Example 1: Part 1
    00:00
  • Pipe Flow and Darcy-Weisback Equation
    00:00
  • Power and Energy: Example 3
    00:00
  • Power and Energy: Example 2
    00:00
  • Power and Energy: Example 1: Part 2
    00:00
  • Power and Energy: Example 1: Part 1
    00:00
  • Turbulent Flow Example: Part 2
    00:00
  • Turbulent Flow Example: Part 3
    00:00
  • Introduction to Forces on Planar and Submerged Surfaces
    00:00
  • Buoyancy: Example 2: Part 1
    00:00
  • Buoyancy: Example 1
    00:00
  • Introduction to Buoyancy
    00:00
  • Forces on Curved Surfaces: Example 2: Part 2
    00:00
  • Forces on Curved Surfaces: Example 2: Part 1
    00:00
  • Forces on Curved Surfaces: Example 1
    00:00
  • Forces on Curved Surfaces Trick
    00:00
  • Forces on Curved Surfaces
    00:00
  • Forces on Planar Surfaces: Example 2
    00:00
  • Forces on Planar Surfaces: Example 1: Part 2
    00:00
  • Forces on Planar Surfaces: Example 1: Part 1
    00:00
  • Forces on Planar Surfaces: Center of Pressure
    00:00
  • Power and Energy Equation
    00:00
  • Introduction to Power and Energy Terminology
    00:00
  • Bernoulli Equation: Example 4
    00:00
  • The Material Derivative
    00:00
  • Static Pressure: Example 3: Part 2
    00:00
  • Static Pressure: Example 3: Part 1
    00:00
  • Static Pressure: Example 2
    00:00
  • Static Pressure: Example 1
    00:00
  • Introduction to Fluid Statics
    00:00
  • Streamline Equation: Example 2
    00:00
  • Streamline Equation: Example 1
    00:00
  • Acceleration and Streamline Equations
    00:00
  • Velocity Field Continued
    00:00
  • Simple Velocity Field: Example 2
    00:00
  • Simple Velocity Field: Example 1
    00:00
  • Components of Acceleration Field
    00:00
  • Fluid Kinematics: Volumetric Dilation Rate & Vorticity
    00:00
  • Fluid Kinematics: Example 1: Dilation Rate
    00:00
  • Basics of Linear Momentum: Part 2
    00:00
  • Basics of Linear Momentum: Part 1
    00:00
  • Bernoulli Equation: Example 3
    00:00
  • Bernoulli Equation: Example 2
    00:00
  • Mass Conservation: Example 2
    00:00
  • Mass Conservation: Example 1
    00:00
  • The Reynalds Transport Theorem
    00:00
  • Bernoulli Equation: Example 1: Part 2
    00:00
  • Bernoulli Equation: Example 1: Part 1
    00:00
  • Introduction to Bernoulli Equation
    00:00
  • Fluid Kinematics: Example 3: Vorticity
    00:00
  • Fluid Kinematics: Example 2: Rotation Vector
    00:00
  • Introduction to Velocity Fields
    00:00

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