Fluid Mechanics: Fundamentals, Theory and Applications
Fluid Kinematics , Dynamics,Bernoulli's Principle,Flow Measurement,Dimensional Analysis, Major and minor head losses
What you'll learn
Understand and apply fundamental fluid mechanics principles ( like Pascal and Hydrostatic Law)
Analyze fluid flow using Bernoulli's principle, and fluid flow measurement devices like venturimeter, orifcemeter, and others
Characterize and predict flow regimes (such as laminar, turbulent)
Understand the losses i,e major and minor head losses during fluid flow
Analyze the dimensional analysis for fluid flow problems
Requirements
This course is structured to accommodate learners who have the basic knowledge in mathematics and physics. If you are new to fluid mechanics, still no issues as all concepts are covered in detail to help you build a strong foundation before delving into more advanced topics.
Description
This course provides a comprehensive introduction to the principles and applications of fluid mechanics, focusing on both theoretical foundations and practical implementations. Key topics include fluid kinematics, which explores the motion of fluids without considering the forces causing the motion, and fluid dynamics, which delves into the forces and energy influencing fluid flow.
The course covers essential concepts such as Pascal's Law and the Hydrostatic Law, providing a strong understanding of pressure distribution in static fluids, along with their applications in hydraulic systems and fluid storage design. Practical aspects are covered through flow measurement techniques, introducing devices like venturimeters, orifice meters, and Pitot tubes, crucial for quantifying flow rates, velocities, and pressures in real-world systems. The course emphasizes the Bernoulli Principle, highlighting its applications in energy conservation, pressure-velocity relationships, and flow analysis.
The course also explores major and minor head losses in pipelines, helping students understand frictional and localized losses in fluid transportation systems.Students will learn about dimensional analysis, a powerful tool for deriving dimensionless parameters and scaling fluid systems, ensuring applicability across various engineering scenarios.With a balance of theoretical understanding and hands-on problem-solving, this course equips students with the skills to analyze and design fluid systems in fields like engineering, environmental sciences, and energy. Ideal for beginners, it lays a solid foundation for advanced studies and practical applications of fluid mechanics.
Who this course is for
This course is valuable for anyone looking to apply fluid mechanics principles to solve real-world engineering problems and optimize fluid-based systems
Published 12/2024
Created by Inderpreet Singh
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch
Level: All | Genre: eLearning | Language: English | Duration: 101 Lectures ( 8h 21m ) | Size: 2.99 GB
Download
*
Fluid Kinematics , Dynamics,Bernoulli's Principle,Flow Measurement,Dimensional Analysis, Major and minor head losses
What you'll learn
Understand and apply fundamental fluid mechanics principles ( like Pascal and Hydrostatic Law)
Analyze fluid flow using Bernoulli's principle, and fluid flow measurement devices like venturimeter, orifcemeter, and others
Characterize and predict flow regimes (such as laminar, turbulent)
Understand the losses i,e major and minor head losses during fluid flow
Analyze the dimensional analysis for fluid flow problems
Requirements
This course is structured to accommodate learners who have the basic knowledge in mathematics and physics. If you are new to fluid mechanics, still no issues as all concepts are covered in detail to help you build a strong foundation before delving into more advanced topics.
Description
This course provides a comprehensive introduction to the principles and applications of fluid mechanics, focusing on both theoretical foundations and practical implementations. Key topics include fluid kinematics, which explores the motion of fluids without considering the forces causing the motion, and fluid dynamics, which delves into the forces and energy influencing fluid flow.
The course covers essential concepts such as Pascal's Law and the Hydrostatic Law, providing a strong understanding of pressure distribution in static fluids, along with their applications in hydraulic systems and fluid storage design. Practical aspects are covered through flow measurement techniques, introducing devices like venturimeters, orifice meters, and Pitot tubes, crucial for quantifying flow rates, velocities, and pressures in real-world systems. The course emphasizes the Bernoulli Principle, highlighting its applications in energy conservation, pressure-velocity relationships, and flow analysis.
The course also explores major and minor head losses in pipelines, helping students understand frictional and localized losses in fluid transportation systems.Students will learn about dimensional analysis, a powerful tool for deriving dimensionless parameters and scaling fluid systems, ensuring applicability across various engineering scenarios.With a balance of theoretical understanding and hands-on problem-solving, this course equips students with the skills to analyze and design fluid systems in fields like engineering, environmental sciences, and energy. Ideal for beginners, it lays a solid foundation for advanced studies and practical applications of fluid mechanics.
Who this course is for
This course is valuable for anyone looking to apply fluid mechanics principles to solve real-world engineering problems and optimize fluid-based systems
Published 12/2024
Created by Inderpreet Singh
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch
Level: All | Genre: eLearning | Language: English | Duration: 101 Lectures ( 8h 21m ) | Size: 2.99 GB
Download
*