Essentials Of Fluid Mechanics For Engineers
A framework that paves way to Fluid Mechanics
What you'll learn
Understand and apply fundamental fluid properties and flow characteristics
Analyse hydrostatic forces and determine pressure distributions
Evaluate fluid stability using buoyancy and metacentric principles
Apply conservation laws via Reynolds Transport Theorem
Examine flow kinematics and utilize Bernoulli’s principle effectively
Use dimensional analysis for model testing and scaling
Interpret and solve real-world problems with numerical example
Hands on experience with Numerical
Requirements
School level Science (Physics) knowledge
Basic knowledge of Calculus
Description
This comprehensive course offers a foundational and applied understanding of Fluid Mechanics, tailored for engineering students and professionals. It introduces the basic principles governing fluid behaviour, enabling learners to analyse, model, and solve real-world fluid flow problems.The course begins with basic concepts and fluid properties, building the groundwork for understanding pressure, density, viscosity, and surface tension. It progresses to detailed fluid flow analysis, covering hydrostatics, pressure measurement, and forces on submerged surfaces. Special focus is placed on buoyancy, metacentric height, and rigid body motion, essential for naval and mechanical applications.
Learners will explore the Reynolds Transport Theorem as a bridge between system and control volume approaches, followed by a deep dive into the kinematics of flow and the energy-based Bernoulli’s Theorem. Real-world relevance is enhanced through dimensional analysis, modelling techniques, and flow behaviour in pipelines.The course integrates numerical simulations and illustrative examples to strengthen problem-solving skills and promote engineering intuition. By the end, learners will be well-equipped with the conceptual and practical tools required to approach complex fluid systems across multiple engineering disciplines.Course
Content:
Section 1: Basic Concepts
Section 2: Properties of FluidSection 3: Fluid Flow Analysis
Section 4: Measurement of Force and Hydrostatic Pressure
Section 5: Buoyancy, Meta Centre, Stability and Rigid Motion
Section 6: Reynolds Transport Theorem and its Applications
Section 7: Kinematics of Flow
Section 8: The Bernoulli’s Theorem
Section 9: Dimensional Analysis and Flow in Pipes
Section 10: Numerical and Examples
Undergraduate/postgraduate students of engineering/science,Anyone who wants to learn fluid mechanics
Published 7/2025
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 2.59 GB | Duration: 5h 53m
Download
*
A framework that paves way to Fluid Mechanics
What you'll learn
Understand and apply fundamental fluid properties and flow characteristics
Analyse hydrostatic forces and determine pressure distributions
Evaluate fluid stability using buoyancy and metacentric principles
Apply conservation laws via Reynolds Transport Theorem
Examine flow kinematics and utilize Bernoulli’s principle effectively
Use dimensional analysis for model testing and scaling
Interpret and solve real-world problems with numerical example
Hands on experience with Numerical
Requirements
School level Science (Physics) knowledge
Basic knowledge of Calculus
Description
This comprehensive course offers a foundational and applied understanding of Fluid Mechanics, tailored for engineering students and professionals. It introduces the basic principles governing fluid behaviour, enabling learners to analyse, model, and solve real-world fluid flow problems.The course begins with basic concepts and fluid properties, building the groundwork for understanding pressure, density, viscosity, and surface tension. It progresses to detailed fluid flow analysis, covering hydrostatics, pressure measurement, and forces on submerged surfaces. Special focus is placed on buoyancy, metacentric height, and rigid body motion, essential for naval and mechanical applications.
Learners will explore the Reynolds Transport Theorem as a bridge between system and control volume approaches, followed by a deep dive into the kinematics of flow and the energy-based Bernoulli’s Theorem. Real-world relevance is enhanced through dimensional analysis, modelling techniques, and flow behaviour in pipelines.The course integrates numerical simulations and illustrative examples to strengthen problem-solving skills and promote engineering intuition. By the end, learners will be well-equipped with the conceptual and practical tools required to approach complex fluid systems across multiple engineering disciplines.Course
Content:
Section 1: Basic Concepts
Section 2: Properties of FluidSection 3: Fluid Flow Analysis
Section 4: Measurement of Force and Hydrostatic Pressure
Section 5: Buoyancy, Meta Centre, Stability and Rigid Motion
Section 6: Reynolds Transport Theorem and its Applications
Section 7: Kinematics of Flow
Section 8: The Bernoulli’s Theorem
Section 9: Dimensional Analysis and Flow in Pipes
Section 10: Numerical and Examples
Undergraduate/postgraduate students of engineering/science,Anyone who wants to learn fluid mechanics
Published 7/2025
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 2.59 GB | Duration: 5h 53m
Download
*