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Intro to Fluid Mechanics for Engineering Students Part 3

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Intro to Fluid Mechanics for Engineering Students Part 3, available at $59.99, has an average rating of 5, with 28 lectures, based on 115 reviews, and has 1284 subscribers.

You will learn about Lagrangian & Eulerian Descriptions, Vector Fields Continuity & Navier Stokes Equations, Buckingham Pi Theorem Vorticity, Stream Functions, Velocity Potential & More! This course is ideal for individuals who are Students enrolled in a university-level Fluids course who need additional study resources It is particularly useful for Students enrolled in a university-level Fluids course who need additional study resources.

Enroll now: Intro to Fluid Mechanics for Engineering Students Part 3

Summary

Title: Intro to Fluid Mechanics for Engineering Students Part 3

Price: $59.99

Average Rating: 5

Number of Lectures: 28

Number of Published Lectures: 28

Number of Curriculum Items: 28

Number of Published Curriculum Objects: 28

Original Price: $59.99

Quality Status: approved

Status: Live

What You Will Learn

  • Lagrangian & Eulerian Descriptions, Vector Fields
  • Continuity & Navier Stokes Equations, Buckingham Pi Theorem
  • Vorticity, Stream Functions, Velocity Potential & More!

Who Should Attend

  • Students enrolled in a university-level Fluids course who need additional study resources

Target Audiences

  • Students enrolled in a university-level Fluids course who need additional study resources

Are you tired of struggling in your Fluids class?

If you answered yes, then this course is for you! Here you’ll find easy to understand lectures and plenty of fully-worked examples to help you learn the challenging subject of Fluid Mechanics.

This course is the third in a 3-course series designed to teach the fundamentals of Fluid Mechanics. In this section, we continue learning about fluid in motion and we will introduce the concept of dimensional analysis.

Here’s what we’ll cover

This course covers the following topics that are generally found in a university-level Intro to Fluids class:

  • Lagrangian and Eulerian Descriptions

  • Velocity and Acceleration Fields

  • Continuity Equation

  • Navier Stokes

  • Stream Function

  • Vorticity and Irrotationality

  • Velocity Potential

  • Dimensional Analysis & Buckingham Pi Theorem

  • Intro to Laminar and Turbulent Flow

  • And more!

Here’s what you get when you enroll

  • Lifetime access to the course

  • Easy to follow, on-demand lecture videos

  • Plenty of fully-worked examples in a variety of difficulty levels

  • Downloadable outline of notes to help you create an organized set of notes and to help you follow along

What’s the format of the course?

Let me just say that I hate engineering courses taught with PowerPoint slides. Due to this, you will not find slides here.

I think people learn better when they have to write the material. That means the majority of my lectures are handwritten. I give you a brief outline of notes to help you follow along and to help minimize the length of the videos.

Speaking of video length… am I the only one who doesn’t like watching hour-long lecture videos? I didn’t think so.

To eliminate that frustration my lectures are broken up into shorter segments, typically 12-15 minutes.

And if you are here for examples, I made them easy to find. Almost all the examples are in their own videos, that way you can look through the notes and pick and choose which ones you want to watch.

Course Curriculum

Chapter 1: Welcome!

Lecture 1: Welcome Video

Chapter 2: Differential Relations for Fluid Flow

Lecture 1: Lagrangian & Eulerian Descriptions

Lecture 2: Velocity & Acceleration Fields

Lecture 3: Example 25

Lecture 4: Example 26

Lecture 5: Mass Conservation

Lecture 6: Steady & Incompressible Flow

Lecture 7: Example 27

Lecture 8: Example 28

Lecture 9: Examples 29 and 29.1

Lecture 10: Navier Stokes

Lecture 11: Example 30

Lecture 12: Example 31

Lecture 13: Example 32

Lecture 14: Stream Function

Lecture 15: Example 33

Lecture 16: Example 34

Lecture 17: Vorticity

Lecture 18: Velocity Potential

Lecture 19: Example 35

Lecture 20: Example 36

Lecture 21: Examples 37 and 38

Chapter 3: Dimensional Analysis

Lecture 1: Dimensional Analysis Part 1

Lecture 2: Dimensional Analysis Part 2

Lecture 3: Buckingham Pi Theorem

Lecture 4: Example 39

Lecture 5: Example 40

Chapter 4: Reynolds Number

Lecture 1: Reynolds Number

Instructors

Rating Distribution

  • 1 stars: 1 votes
  • 2 stars: 0 votes
  • 3 stars: 8 votes
  • 4 stars: 26 votes
  • 5 stars: 80 votes

Frequently Asked Questions


How long do I have access to the course materials?


You can view and review the lecture materials indefinitely, like an on-demand channel.


Can I take my courses with me wherever I go?


Definitely! If you have an internet connection, courses on Udemy are available on any device at any time. If you don’t have an internet connection, some instructors also let their students download course lectures. That’s up to the instructor though, so make sure you get on their good side!

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