Fluid Mechanics from Udemy

In this course I would like to help you to understand fluid mechanics or at least fundamentals of fluid mechanics. After this course you will be able to confidently solve any problem in fluid mechanics.

This training course has been formulated in order to enhance knowledge of trainees about fluid mechanics as Hydrostatic, Kinematics, and Hydrodynamics.

In this course I will introduce a comprehensive explanation about fluid properties, units and applications of fluid mechanic, hydrostatic force, instruments of measurement of pressure, velocity, and flow, types of Flows, bernoulli equation and its applications.

The course consists of 5 sections, section 1 is introduction, section 2 includes Definitions, Applications, Units, and Fluid Properties, section 3 is Fluid Pressure, and Hydrostatic Force that includes:

- Types of Pressures

- Basic Equations of Static Fluid

- Pascal’s Law and its Applications

- Hydrostatic Force on Submerged Surfaces

- Buoyancy and Stability

section 4 is Fluid Kinematics that includes:

- Open-channel Flow and Close-channel Flow

- Types of Flows

section 5 is Hydrodynamics that includes:

- Volume Flow Rate

- Mean Velocity

- Continuity Equation

- Bernoulli Equation (Energy Equation) and its Applications

The target students of this course are students and graduates of civil engineering or environmental engineering or anyone who has an interest in the subject of fluid mechanics

What's inside

Learning objectives

Definitions, applications, units, and fluid properties
Fluid pressure, and hydrostatic force

Fluid kinematics
Hydrodynamic

Definitions, applications, units, and fluid properties
Fluid pressure, and hydrostatic force
Fluid kinematics
Hydrodynamic

Syllabus

Introduction

Definitions, Applications, Units, and Fluid Properties

Definitions, Applications, and Units

Units

Liquid Properties-1

Liquid Properties-2

Liquid Properties-3

Liquid Properties-4

Liquid Properties-5

FLUID PRESSURE, AND HYDROSTATIC FORCE

Hydrostatic Pressure

Atmospheric Pressure, Gage Pressure, Absolute Pressure

Pressure Head, Piezometric Head

Basic Equations of Static Fluid

Pascal’s Law

Pascal’s Law-Example

Pascal’s Applications-Hydraulic Jack

Pascal’s Applications-Barometer

Pascal’s Applications-Manometer-1

Pascal’s Applications-Manometer-2

Pascal’s Applications-Manometer-3

Pascal’s Applications-Manometer-4

Hydrostatic Force on Submerged Plane Surface-1

Hydrostatic Force on Submerged Plane Surface-2

Hydrostatic Force on Submerged Plane Surface-3

Hydrostatic Force on Submerged Plane Surface-4

Hydrostatic Force on Submerged Plane Surface-5

Hydrostatic Force on Submerged Curved Surface

Buoyancy and Stability

Stability of Immersed and Floating Bodies

FLUID KINEMATICS

Types of Flows-1

Types of Flows-2

HYDRODYNAMICS

Volume Flow Rate, Mean Velocity, Continuity Equation

Bernoulli Equation-1

Bernoulli Equation-2

Application of Bernoulli Equation-Venturimeter-1

Application of Bernoulli Equation-Venturimeter-2

Application of Bernoulli Equation-Tanks Emptying Velocity and flow

Application of Bernoulli Equation-Tanks Emptying Time

Application of Bernoulli Equation-Siphons

Good to know

Know what's good

, what to watch for

, and possible dealbreakers

Explores hydrostatic force on submerged surfaces, which is essential for designing hydraulic structures and analyzing their stability in various environmental conditions

Covers the Bernoulli equation and its applications, which is fundamental for understanding fluid behavior in pipes, channels, and other engineering systems

Examines fluid kinematics, including open-channel and close-channel flow, which is crucial for designing and managing water resources and wastewater systems

Discusses Pascal's Law and its applications, such as hydraulic jacks and manometers, which are important for understanding pressure transmission in fluid systems

Includes a section on fluid properties, units, and applications, which provides a foundational understanding for further study in fluid mechanics

Focuses on classical fluid mechanics, which may not cover recent advancements in computational fluid dynamics or microfluidics that are increasingly relevant in research and industry

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Fluid Mechanics with these activities:

Review Calculus Fundamentals

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Strengthen your understanding of calculus concepts, as they are essential for deriving and applying many fluid mechanics equations.

Browse courses on Differential Equations

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Review differentiation and integration techniques.
Practice solving problems involving derivatives and integrals.
Focus on applications of calculus to physical problems.

Schaum's Outline of Fluid Mechanics

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Supplement your learning with a problem-solving guide that reinforces key concepts.

View Schaum's Outline of Fluid Mechanics (Schaum's... on Amazon

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Review relevant chapters after each lecture.
Work through solved problems to understand the solutions.
Attempt unsolved problems for practice.

Read 'Fluid Mechanics' by Frank White

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Enhance your understanding of fluid mechanics principles with a widely respected textbook.

View Fluid Mechanics on Amazon

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Read assigned chapters before each corresponding lecture.
Work through example problems in the book.
Attempt end-of-chapter problems for practice.

Four other activities

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Show all seven activities

Solve Hydrostatics Problems

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Reinforce your understanding of hydrostatic pressure and forces by solving a variety of problems.

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Find practice problems related to hydrostatic pressure.
Calculate forces on submerged surfaces.
Analyze buoyancy and stability problems.

Create a Fluid Mechanics Glossary

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Solidify your understanding of key terms and definitions by creating a comprehensive glossary.

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Identify key terms from each section of the course.
Write clear and concise definitions for each term.
Include relevant equations or diagrams where applicable.

Design a Simple Hydraulic System

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Apply your knowledge of fluid mechanics to design a practical hydraulic system.

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Define the purpose and requirements of the system.
Select appropriate components and materials.
Calculate pressure, flow rates, and forces.
Create a schematic diagram of the system.

CFD Simulation of Flow

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Gain hands-on experience with computational fluid dynamics (CFD) by simulating a simple flow scenario.

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Choose a suitable CFD software package.
Create a geometry and mesh for the flow domain.
Set up boundary conditions and fluid properties.
Run the simulation and analyze the results.

Career center

Learners who complete Fluid Mechanics will develop knowledge and skills that may be useful to these careers:

Water Resource Engineer

A water resource engineer focuses on the sustainable management of water resources. This course provides helpful introductory knowledge about fluid mechanics, which is essential for understanding how water flows through natural and engineered systems. You will gain knowledge of fluid properties, hydrostatic forces, and fluid dynamics which is relevant to the design of dams, reservoirs, and irrigation systems. You'll explore open-channel and closed-channel flow, which are topics critical for managing water distribution and flood control. The water resource engineer will be able to confidently solve problems in fluid mechanics.

See salaries and explore the career path for Water Resource Engineer

Hydraulic Engineer

A hydraulic engineer works with the properties of fluids to design systems that manage or control water. This course helps build a foundation in the fundamentals of fluid mechanics, directly applicable to this role. You'll learn about hydrostatic forces, fluid kinematics, and hydrodynamics, which are essential for designing hydraulic systems. Principles such as the Bernoulli equation, covered in the course, are fundamental to understanding and designing hydraulic structures and systems. This training course may allow one to solve problems related to hydrostatics, kinematics, and hydrodynamics, a key skill for any hydraulic engineer.

See salaries and explore the career path for Hydraulic Engineer

Environmental Engineer

An environmental engineer works to protect the environment through the design of solutions to environmental problems. This course helps build a foundation in fluid mechanics, which is essential for designing wastewater treatment plants, managing water resources, and controlling pollution. The course provides knowledge of fluid properties, hydrostatic forces, and fluid dynamics. The study of hydrodynamics, including the Bernoulli equation, covered in the course is very relevant in understanding and optimizing the performance of environmental systems. Environmental Engineers will find this training helpful to expand their knowledge and understanding of fluid systems.

See salaries and explore the career path for Environmental Engineer

Irrigation Engineer

An irrigation engineer designs and manages irrigation systems for agricultural purposes. This course offers insight into fluid mechanics, which is essential for designing efficient and effective irrigation systems. Understanding fluid properties, hydrostatic forces, and fluid dynamics is critical for optimizing water distribution and minimizing water loss. The course's exploration of open-channel flow and the Bernoulli equation is particularly valuable for designing irrigation canals and pipelines. An irrigation engineer will be able to solve problems related to hydrostatics and hydrodynamics.

See salaries and explore the career path for Irrigation Engineer

Civil Engineer

A civil engineer designs, constructs, and maintains infrastructure projects such as roads, bridges, and water systems. This course helps build a foundation in fluid mechanics, which is crucial for designing water distribution systems, drainage systems, and other hydraulic structures. The course covers hydrostatic forces, fluid kinematics, and hydrodynamics, all directly relevant to civil engineering applications. Knowledge of the Bernoulli equation, as taught in the course, is particularly useful for designing efficient and safe water systems. Civil engineers will find the course's examples of open-channel and closed-channel flow especially helpful.

See salaries and explore the career path for Civil Engineer

Naval Architect

A naval architect designs and oversees the construction of ships and other marine vessels. This course helps build a foundation in fluid mechanics, which is crucial for understanding how vessels interact with water. The principles of buoyancy and stability, covered in the course, are essential for designing safe and efficient vessels. Topics such as hydrostatic pressure and fluid dynamics are valuable for analyzing hull performance and resistance. Naval architects will find the thorough explanations to be particularly helpful.

See salaries and explore the career path for Naval Architect

Wastewater Engineer

A wastewater engineer designs and manages systems for treating and disposing of wastewater. This course helps build a foundation in fluid mechanics, which is essential for understanding how wastewater flows through treatment plants and pipelines. Covering topics such as fluid properties, hydrostatic forces, and fluid dynamics. The course's treatment of hydrodynamics, including the Bernoulli equation, is beneficial for optimizing the performance of wastewater treatment processes. This training may enable one to confidently solve problems related to hydrostatics, kinematics, and hydrodynamics, a skill needed to succeed as a wastewater engineer.

See salaries and explore the career path for Wastewater Engineer

Hydrologist

A hydrologist studies the movement, distribution, and quality of water. This course helps build a foundation in fluid mechanics, which is essential for understanding how water flows through rivers, lakes, and groundwater systems. The comprehensive explanations of fluid properties, hydrostatic forces, and fluid dynamics are vital for analyzing water flow patterns. You will find the Bernoulli equation and its applications particularly useful in modeling water movement and predicting floods. Hydrologists will find this training course helpful to understand fluid systems.

See salaries and explore the career path for Hydrologist

Process Engineer

A process engineer develops and optimizes industrial processes, often involving the movement and transformation of fluids. This course helps build a foundation in fluid mechanics, which is essential for designing and troubleshooting processes involving liquids and gases. The course covers fluid properties, hydrostatics, and hydrodynamics, all directly applicable to process engineering. The process engineer will find the treatment of the Bernoulli equation and its applications particularly useful in analyzing and optimizing fluid flow in industrial systems.

See salaries and explore the career path for Process Engineer

Coastal Engineer

A coastal engineer works to protect coastlines from erosion and flooding. This course may be useful for understanding the fundamentals of fluid mechanics, which is essential for analyzing wave action, tidal flows, and sediment transport. The course covers hydrostatic forces, fluid kinematics, and hydrodynamics, directly relevant to coastal engineering problems. The knowledge of buoyancy and stability, covered in the course, is particularly relevant for designing coastal structures. The coastal engineer will find the training helpful to improve their knowledge of open-channel flow and its application in coastal environments.

See salaries and explore the career path for Coastal Engineer

Mechanical Engineer

A mechanical engineer designs and develops mechanical systems and devices. This course may be relevant for understanding fluid mechanics, particularly in the context of designing fluid-based systems such as pumps, turbines, and pipelines. The course covers fluid properties, hydrostatic forces, and fluid dynamics, which are important for analyzing the performance of these systems. The mechanical engineer may find the Bernoulli equation and its applications particularly useful in designing efficient fluid systems.

See salaries and explore the career path for Mechanical Engineer

Geotechnical Engineer

A geotechnical engineer investigates subsurface conditions and materials to assess the risk of earthworks and foundations. This course may be useful for understanding the principles of fluid mechanics, particularly as they relate to groundwater flow and soil behavior. The coverage of hydrostatic pressure and fluid properties provides background knowledge for analyzing soil stability and designing foundations. The course's treatment of fluid kinematics may be helpful for understanding groundwater movement and its impact on soil conditions. Geotechnical engineers will benefit from the basic knowledge of fluid mechanics.

See salaries and explore the career path for Geotechnical Engineer

Aerospace Engineer

An aerospace engineer designs aircraft and spacecraft. This course may be useful in building a foundational understanding of fluid mechanics, particularly as it applies to aerodynamics. Though the course focuses on liquids, the fundamental principles of fluid properties, pressure, and flow dynamics are relevant to understanding how air flows around aircraft. The coverage of the Bernoulli equation is also applicable to understanding lift and drag. However, this course will not cover topics specific to aerodynamics or compressible flow. Aerospace Engineers may still find the basic knowledge of fluid mechanics helpful.

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Meteorologist

A meteorologist studies the atmosphere and weather patterns. This course may be useful for understanding the basic principles of fluid mechanics, which govern the movement of air masses and the formation of weather systems. The fundamental concepts of fluid properties, pressure, and flow dynamics covered in the course provide theoretical background for analyzing atmospheric phenomena. Though focused on liquids, some principles transfer to atmospheric applications. A meteorologist may find the course useful.

See salaries and explore the career path for Meteorologist

Biomedical Engineer

A biomedical engineer applies engineering principles to solve medical and biological problems. This course may be useful for understanding fluid mechanics in the context of biological systems, such as blood flow and fluid transport in the body. The course covers fluid properties, hydrostatic pressure, and fluid dynamics, which can provide a foundation for analyzing physiological processes. Biomedical Engineers may find this training useful in expanding their knowledge of fluid systems and their applications in the human body, particularly in designing medical devices that interact with fluids.

See salaries and explore the career path for Biomedical Engineer

Reading list

We've selected two books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Fluid Mechanics.

Fluid Mechanics

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Comprehensive resource for fluid mechanics, covering a wide range of topics with clear explanations and numerous examples. It is commonly used as a textbook in undergraduate and graduate courses. Reading this book will provide a deeper understanding of the concepts covered in the course and serve as a valuable reference for future studies. It adds breadth to the course by covering advanced topics and real-world applications.

Schaum's Outline of Fluid Mechanics

Save

This Schaum's Outline provides a concise overview of fluid mechanics principles with numerous solved problems. It useful resource for reinforcing understanding and practicing problem-solving skills. is particularly helpful for students who need additional practice with applying concepts. It is more valuable as additional reading and a reference tool than as a primary textbook.

Schaum's Outline of Fluid Mechanics (Schaum's...

Kindle Edition

Fluid Mechanics

What's inside

Learning objectives

Syllabus

Good to know

Save this course

Activities

Career center

Reading list

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