09-26-2024, 08:45 AM
Apply Dynamic Fluid Mechanics Concept
Published 9/2024
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch
Language: English | Duration: 2h 42m | Size: 845 MB
Dynamic Fluid Mechanics
What you'll learn
1. know flow types and flow line types.
2. Learn about Conservation of mass law.
3. Learn about Conservation of energy law.
4. Learn about Conservation of momentum law.
5. Know the "Continuity equation" and its application.
6. Learn about the "Bernoulli equation.
7. How to use the "Bernoulli equation" in dynamic fluid problems.
8. Learn the meaning of hydraulic gradient line and total energy line.
9. Learn how to calculate and draw hydraulic gradient and total energy lines.
10. Learn about the applications of Bernoulli equation.
11. Know of Bernoulli for free jets.
12. Know of Bernoulli for Pitot Tube.
13. Know of Bernoulli for Venturi Tube.
14. Understanding the meaning of momentum.
15. Learn about conservation of the momentum and its applications.
16. Learn about the energy head loss types.
17. How to calculate the friction head losses by using "Darcy-Weisbach" equation.
18. How to get friction factor (f) from Moody Diagram or Mathematical formulas.
19. How to calculate the Local head losses.
20. Know of the flow in complex pipelines.
21. Know of the flow in pipes which connected in Series or Parallel
Requirements
Basis of Physics
Basics of Civil Engineering
Basics of static fluid
Description
This course is best suitable for the students who find dynamic fluid subject as difficult, because all the complex problems are discussed in simple manner, also advanced power point presentations, animations are used so as students should understand in easiest way.This course contains a total of four sections, each section is having various subtopics explained.The sections are as follows:Section 1: Dynamic Fluid IntroductionIn this section, you will know about the author, course objectives and components. You will know flow types and flow line types. Section 2: Conservation LawsIn this section, you will Learn Conservation of mass, Conservation of energy and Conservation of momentum laws. You will know the "Continuity equation" and its application. You will learn about the "Bernoulli equation" and how to use it in dynamic fluid problems.You will learn the meaning of hydraulic gradient line and total energy line. You will also learn how to calculate and draw them. You will also learn the applications of Bernoulli equation as Bernoulli for free jets, Bernoulli for Pitot Tube, and Bernoulli for Venturi Tube. You will know the meaning of momentum and conservation of the momentum and its applications.Section 3: Energy Head lossesIn this section, you will Learn about the energy head loss types. You will learn how to calculate the friction head losses by using "Darcy-Weisbach" equation. You will learn how to get friction factor (f) from Moody Diagram or Mathematical formulas. You will also learn how to calculate the Local head losses.Section 4: Flow Through PipesIn this section, you will know the flow in complex pipelines.You will know the flow in pipes which connected in Series or ParallelBy the end of this course, you will have a solid understanding of the theory and practice of dynamic fluid mechanics. You will be able to apply your knowledge and skills to solve real-world problems related to dynamic fluid mechanics.I hope you are excited to join me in this course. I look forward to seeing you in the next lecture. Thank you for choosing this course.So cannot wait to see you in the course, and I hope it shall give you added value.
Who this course is for
• Civil engineering students
• All personal involved in water engineering
Homepage:
Screenshots
Download link
rapidgator.net:
ddownload.com:
Published 9/2024
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch
Language: English | Duration: 2h 42m | Size: 845 MB
Dynamic Fluid Mechanics
What you'll learn
1. know flow types and flow line types.
2. Learn about Conservation of mass law.
3. Learn about Conservation of energy law.
4. Learn about Conservation of momentum law.
5. Know the "Continuity equation" and its application.
6. Learn about the "Bernoulli equation.
7. How to use the "Bernoulli equation" in dynamic fluid problems.
8. Learn the meaning of hydraulic gradient line and total energy line.
9. Learn how to calculate and draw hydraulic gradient and total energy lines.
10. Learn about the applications of Bernoulli equation.
11. Know of Bernoulli for free jets.
12. Know of Bernoulli for Pitot Tube.
13. Know of Bernoulli for Venturi Tube.
14. Understanding the meaning of momentum.
15. Learn about conservation of the momentum and its applications.
16. Learn about the energy head loss types.
17. How to calculate the friction head losses by using "Darcy-Weisbach" equation.
18. How to get friction factor (f) from Moody Diagram or Mathematical formulas.
19. How to calculate the Local head losses.
20. Know of the flow in complex pipelines.
21. Know of the flow in pipes which connected in Series or Parallel
Requirements
Basis of Physics
Basics of Civil Engineering
Basics of static fluid
Description
This course is best suitable for the students who find dynamic fluid subject as difficult, because all the complex problems are discussed in simple manner, also advanced power point presentations, animations are used so as students should understand in easiest way.This course contains a total of four sections, each section is having various subtopics explained.The sections are as follows:Section 1: Dynamic Fluid IntroductionIn this section, you will know about the author, course objectives and components. You will know flow types and flow line types. Section 2: Conservation LawsIn this section, you will Learn Conservation of mass, Conservation of energy and Conservation of momentum laws. You will know the "Continuity equation" and its application. You will learn about the "Bernoulli equation" and how to use it in dynamic fluid problems.You will learn the meaning of hydraulic gradient line and total energy line. You will also learn how to calculate and draw them. You will also learn the applications of Bernoulli equation as Bernoulli for free jets, Bernoulli for Pitot Tube, and Bernoulli for Venturi Tube. You will know the meaning of momentum and conservation of the momentum and its applications.Section 3: Energy Head lossesIn this section, you will Learn about the energy head loss types. You will learn how to calculate the friction head losses by using "Darcy-Weisbach" equation. You will learn how to get friction factor (f) from Moody Diagram or Mathematical formulas. You will also learn how to calculate the Local head losses.Section 4: Flow Through PipesIn this section, you will know the flow in complex pipelines.You will know the flow in pipes which connected in Series or ParallelBy the end of this course, you will have a solid understanding of the theory and practice of dynamic fluid mechanics. You will be able to apply your knowledge and skills to solve real-world problems related to dynamic fluid mechanics.I hope you are excited to join me in this course. I look forward to seeing you in the next lecture. Thank you for choosing this course.So cannot wait to see you in the course, and I hope it shall give you added value.
Who this course is for
• Civil engineering students
• All personal involved in water engineering
Homepage:
Screenshots
Download link
rapidgator.net:
ddownload.com: