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Intro to Fluid Mechanics - Bernoulli and Control Volume Appch



Size :1.3 GB
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Added : 5 months ago » by freecoursewb » in Other
Language : English
Last Updated :5 months ago
Info_Hash :E86DD3DED16475F294C68A3C5A801970967D6EE9

Torrent File Contents

Intro to Fluid Mechanics - Bernoulli and Control Volume Appch
  Get Bonus Downloads Here.url
  -  182 Bytes

  ~Get Your Files Here !/1. Fundamentals of fluid dynamics/1. Introduction and recap.mp4
  -  11.82 MB

  ~Get Your Files Here !/1. Fundamentals of fluid dynamics/2. Eulerian and Lagrangian descriptions.mp4
  -  41.57 MB

  ~Get Your Files Here !/1. Fundamentals of fluid dynamics/3. Flow lines.mp4
  -  39.8 MB

  ~Get Your Files Here !/1. Fundamentals of fluid dynamics/4. Mathematical definition of a streamline.mp4
  -  46.35 MB

  ~Get Your Files Here !/1. Fundamentals of fluid dynamics/5. Mathematical definition of a pathline.mp4
  -  16.75 MB

  ~Get Your Files Here !/1. Fundamentals of fluid dynamics/6. Streamline and particle path practice problem.html
  -  155 Bytes

  ~Get Your Files Here !/2. Bernoulli's equation/1. Introduction.mp4
  -  11.91 MB

  ~Get Your Files Here !/2. Bernoulli's equation/10. The venturi effect.mp4
  -  50.68 MB

  ~Get Your Files Here !/2. Bernoulli's equation/11. The venturi meter.mp4
  -  49.08 MB

  ~Get Your Files Here !/2. Bernoulli's equation/12. Quiz.html
  -  151 Bytes

  ~Get Your Files Here !/2. Bernoulli's equation/13. Bernoulli's equation practice problem 2.mp4
  -  56.32 MB

  ~Get Your Files Here !/2. Bernoulli's equation/14. Free jets.mp4
  -  28.94 MB

  ~Get Your Files Here !/2. Bernoulli's equation/15. Bernoulli's equation practice problem 3.mp4
  -  68.31 MB

  ~Get Your Files Here !/2. Bernoulli's equation/2. Bernoulli's equation along a streamline.mp4
  -  81.13 MB

  ~Get Your Files Here !/2. Bernoulli's equation/3. Bernoulli's equation crossing a streamling.mp4
  -  62 MB

  ~Get Your Files Here !/2. Bernoulli's equation/4. Quiz.html
  -  151 Bytes

  ~Get Your Files Here !/2. Bernoulli's equation/5. Definitions.mp4
  -  23.63 MB

  ~Get Your Files Here !/2. Bernoulli's equation/6. The pitot tube.mp4
  -  31.94 MB

  ~Get Your Files Here !/2. Bernoulli's equation/7. Bernoulli's equation practice problem 1.mp4
  -  28.04 MB

  ~Get Your Files Here !/2. Bernoulli's equation/8. The streamtube.mp4
  -  24.06 MB

  ~Get Your Files Here !/2. Bernoulli's equation/9. Quiz.html
  -  151 Bytes

  ~Get Your Files Here !/3. Control Volume Approach/1. Introduction.mp4
  -  11.17 MB

  ~Get Your Files Here !/3. Control Volume Approach/2. Background and important concepts.mp4
  -  126.6 MB

  ~Get Your Files Here !/3. Control Volume Approach/3. Reynolds Transport Theorem.mp4
  -  59.91 MB

  ~Get Your Files Here !/3. Control Volume Approach/4. A note on the Reynolds Transport Theorem.mp4
  -  52.37 MB

  ~Get Your Files Here !/3. Control Volume Approach/5. Conservation of mass.mp4
  -  84.73 MB

  ~Get Your Files Here !/3. Control Volume Approach/6. Conservation of mass practice problem 1.mp4
  -  118.6 MB

  ~Get Your Files Here !/3. Control Volume Approach/7. Newton's 2nd Law.mp4
  -  63.79 MB

  ~Get Your Files Here !/3. Control Volume Approach/8. Newton's 2nd Law common assumptions and simplifications.mp4
  -  39.05 MB

  ~Get Your Files Here !/3. Control Volume Approach/9. Newton's 2nd Law practice problem 1.mp4
  -  59.15 MB

  ~Get Your Files Here !/4. Farewell/1. Farewell.mp4
  -  3 MB

  ~Get Your Files Here !/4. Farewell/2. Bonus section.mp4
  -  4.02 MB

  ~Get Your Files Here !/Bonus Resources.txt
  -  386 Bytes



Torrent Description

Intro to Fluid Mechanics: Bernoulli & Control Volume Appch

https://DevCourseWeb.com

Published 5/2024
Created by David Morata
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch
Genre: eLearning | Language: English | Duration: 28 Lectures ( 4h 34m ) | Size: 1.26 GB

Introduction to fluid dynamics, Bernoulli's equation and the Control Volume Approach (Mass cons., Newton's 2nd Law)

What you'll learn:
Understand the differences between Eulerian and Lagrangian representations of a flow field
Learn the definition of streamline, particle path and streakline
Understand the Bernoulli equation
Learn on the venturi effect
Become familiar with tools such as the pitot-static probe or the venturi meter
Learn the control volume approach and the Reynolds Transport Theorem
Use the mass conservation equation and Newton's second law using control volumes to calculate flow rates and forces due to fluids in motion

Requirements:
Basic calculus and algebra
Knowing how to draw the force diagram and perform a force balance
Basic knowledge of fluid dynamics (hydrostatics, properties, etc.)