Intro to Fluid Mechanics for Engineering Students Part 2 from Udemy

Are you tired of struggling in your Fluids class?

If you answered yes, then this course is for you. Here you'll find easy to understand lectures and plenty of fully-worked examples to help you learn the challenging subject of Fluid Mechanics.

This course is the second in a 3-course series designed to teach the fundamentals of Fluid Mechanics. In this section, we dive into the world of fluid in motion... this is where it starts getting good.

Here's what we'll cover

This course covers the following topics that are generally found in a university-level Intro to Fluids class:

Reynolds Transport Theorem
Conservation of Mass
Volumetric Flow
Linear Momentum Equation
Bernoulli Equation
Stagnation, Static, and Dynamic Pressures
And more.

Here's what you get when you enroll

Lifetime access to the course
Easy to follow, on-demand lecture videos
Plenty of fully-worked examples in a variety of difficulty levels
Downloadable outline of notes to help you create an organized set of notes and to help you follow along

What's the format of the course?

Let me just say that I hate engineering courses taught with PowerPoint slides. Due to this, you will not find slides here.

I think people learn better when they have to write the material. That means the majority of my lectures are handwritten. I give you a brief outline of notes to help you follow along and to help minimize the length of the videos.

Speaking of video length... am I the only one who doesn't like watching hour-long lecture videos? I didn't think so.

To eliminate that frustration my lectures are broken up into shorter segments, typically 12-15 minutes.

And if you are here for examples, I made them easy to find. Almost all the examples are in their own videos, that way you can look through the notes and pick and choose which ones you want to watch.

What's inside

Learning objectives

Reynolds transport theorem & conservation of mass
Linear momentum & bernoulli equation

Stagnation, static, and dynamic pressures

Reynolds transport theorem & conservation of mass
Linear momentum & bernoulli equation
Stagnation, static, and dynamic pressures

Syllabus

Introduction

Welcome Video

Reynolds Transport Theorem & Downloadable Outline of Notes

Reynolds Transport Theorem Continued

Traffic lights

Read about what's good

what should give you pause

and possible dealbreakers

Covers Reynolds Transport Theorem, Conservation of Mass, and Bernoulli Equation, which are fundamental concepts in fluid mechanics and essential for engineering curricula

Features fully-worked examples of varying difficulty, which allows learners to practice applying concepts and solidifies their understanding of fluid mechanics principles

Builds upon the fundamentals of fluid mechanics, making it suitable for students who have already completed an introductory course and are looking to expand their knowledge

Is the second course in a three-part series, suggesting a structured and comprehensive approach to learning fluid mechanics, which may require learners to take the other courses

Relies on handwritten lectures, which may not suit all learning styles, especially those who prefer digital presentations or more formal instruction methods

Requires learners to have some prior knowledge of fluid mechanics, which may not be suitable for absolute beginners without any background in the subject

Reviews summary

Intro to fluid mechanics part 2

According to learners, this course, 'Intro to Fluid Mechanics for Engineering Students Part 2', is designed for students tackling a challenging subject. They appreciate the instructor's approach, particularly the concise video lectures which are typically 12-15 minutes long, and the abundance of fully-worked examples often presented in separate, easy-to-find videos. The course uses a handwritten lecture style without traditional PowerPoint slides. However, students note that as Part 2, it requires prior foundational knowledge from Part 1, and while examples are helpful, additional practice problems would further enhance the learning experience for this difficult topic.

Lectures are handwritten, no reliance on PowerPoint slides.

"I liked the handwritten lecture style; it felt more like being in a real classroom."

"Using handwritten notes instead of slides made the material feel more accessible."

"Some parts of the handwritten notes were a bit hard to read, but the outline helped follow along."

Fluid mechanics is a challenging subject by nature.

"Even with the instructor's clear explanations, fluid mechanics is just a tough subject."

"Don't expect this course to make fluid mechanics 'easy', but it definitely helps demystify it."

"Be prepared to pause and rewatch sections; this topic requires careful thought."

This is Part 2 and assumes foundational understanding.

"Make sure you're comfortable with the material from Part 1 before starting this section."

"This course picks up right where Part 1 left off, so prior knowledge is essential."

"Felt lost initially because I hadn't taken Part 1, had to go back and review."

Lectures broken into easily digestible segments.

"The short video lengths, typically 12-15 minutes, made it easy to stay focused and absorb the material."

"I really appreciated that the lectures weren't hour-long blocks; it helped manage my study time effectively."

"Breaking down complex topics into smaller videos was very helpful for understanding."

Numerous examples provided, often in separate videos.

"Having plenty of fully-worked examples was crucial for practicing the concepts taught."

"The separate videos for examples made it super easy to find the specific type of problem I needed help with."

"I found the examples to be a highlight, covering a variety of difficulty levels which was good."

Focus is on worked examples, lacks additional problems.

"The worked examples are great, but I wish there were extra problems to try on my own."

"Could use some non-graded practice sets to solidify learning before tackling external problems."

"While the examples are helpful, I need more opportunities to apply the concepts independently."

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 Intro to Fluid Mechanics for Engineering Students Part 2 with these activities:

Review Statics and Dynamics

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Reinforce your understanding of fundamental concepts in statics and dynamics, which are essential for grasping fluid behavior.

Browse courses on Fluid Statics

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Review key concepts like forces, moments, and equilibrium.
Practice solving problems related to static and dynamic systems.

Read 'Fluid Mechanics' by Frank M. White

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Supplement your learning with a comprehensive textbook that provides in-depth explanations and examples.

View Melania on Amazon

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Read the chapters relevant to the course syllabus.
Work through the example problems in the book.
Attempt the end-of-chapter problems to test your understanding.

Practice applying the Bernoulli Equation

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Solidify your understanding of the Bernoulli Equation through repetitive problem-solving exercises.

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Solve a variety of problems involving the Bernoulli Equation with different scenarios.
Check your solutions against provided answers or worked examples.

Four other activities

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Show all seven activities

Review 'Schaum's Outline of Fluid Mechanics'

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Use this Schaum's Outline to get more practice with example problems.

View Schaum's Outline of Fluid Mechanics, Second... on Amazon

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Review the key concepts and formulas in each chapter.
Work through the solved problems to understand the application of the concepts.
Attempt the supplementary problems to test your understanding.

Create a Fluid Mechanics Cheat Sheet

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Compile a concise reference sheet summarizing key equations, concepts, and definitions covered in the course.

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Identify the most important formulas and definitions from each module.
Organize the information logically for quick reference.
Include example problems and solutions for each concept.

Design a Venturi Meter

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Apply your knowledge of fluid mechanics to design a Venturi meter, a device used to measure fluid flow rate.

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Research the principles behind Venturi meter operation.
Calculate the dimensions of the Venturi meter based on desired flow rate and pressure drop.
Create a detailed design drawing of the Venturi meter.

Follow Online Tutorials on Computational Fluid Dynamics (CFD)

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Explore the world of CFD to simulate fluid flow and visualize complex phenomena.

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Find tutorials on using CFD software like ANSYS Fluent or OpenFOAM.
Follow the tutorials to simulate simple fluid flow problems.
Experiment with different parameters and boundary conditions to observe their effects.

Career center

Learners who complete Intro to Fluid Mechanics for Engineering Students Part 2 will develop knowledge and skills that may be useful to these careers:

Hydraulic Engineer

As a hydraulic engineer, you will work with the control and use of water, which makes this course an excellent supplement to your existing knowledge. You might design systems for irrigation, water supply, or flood control. This course, by covering topics like the Reynolds Transport Theorem, Conservation of Mass, and the Bernoulli Equation, helps you understand the fundamental fluid dynamics principles necessary for this work. The course's focus on fully-worked examples will be particularly useful when tackling real-world design problems as a hydraulic engineer.

See salaries and explore the career path for Hydraulic Engineer

Mechanical Engineer

Mechanical engineers design, develop, build, and test mechanical and thermal devices, including tools, engines, and machines. This course directly applies to many aspects of mechanical engineering. The course's syllabus, which includes the Reynolds Transport Theorem, Conservation of Mass, and the Bernoulli Equation, helps you understand fluid behavior in various mechanical systems. The course's emphasis on fully-worked examples can also help you learn to immediately apply these concepts.

See salaries and explore the career path for Mechanical Engineer

Environmental Engineer

Environmental engineers develop solutions to environmental problems, focusing on water and air quality, waste disposal, and pollution control. A key aspect of this work involves understanding how fluids move and interact with the environment. This course, by covering topics like the Reynolds Transport Theorem and the Linear Momentum Equation, helps you understand how pollutants spread in water and air. The numerous examples can also provide practical insights for modeling and mitigating environmental contamination.

See salaries and explore the career path for Environmental Engineer

Civil Engineer

Civil engineers design, construct, supervise, operate, and maintain large construction projects and systems, including roads, buildings, airports, tunnels, dams, bridges, and systems for water supply and sewage treatment. Many of these projects deal directly with fluid mechanics. This course, with its focus on Conservation of Mass and Volumetric Flow, helps you understand how to manage water resources and design efficient water distribution systems. Civil engineers benefit from the examples this course provides.

See salaries and explore the career path for Civil Engineer

Chemical Engineer

Chemical engineers apply the principles of chemistry, biology, physics, and math to solve problems that involve the production or use of chemicals, fuel, drugs, food, and many other products. Fluid mechanics plays a vital role in designing and optimizing chemical processes. This course, with its coverage of the Reynolds Transport Theorem and Conservation of Mass, helps you to understand how fluids behave in reactors, pipelines, and other chemical processing equipment. The downloadable notes provided can also be an asset when working in this field.

See salaries and explore the career path for Chemical Engineer

Energy Engineer

Energy engineers design and develop systems for efficient energy production and distribution. Since many energy systems involve fluid flow, this course can be quite useful. The topics covered, such as the Linear Momentum Equation and Stagnation Pressure, can help you understand how fluids behave in power plants, pipelines, and renewable energy systems. The concise, focused lectures can aid you in studying how to improve the efficiency of energy-related fluid systems.

See salaries and explore the career path for Energy Engineer

Aerospace Engineer

Aerospace engineers design aircraft, spacecraft, satellites, and missiles, and this course may be useful in this career field. This is because a strong understanding of fluid mechanics is crucial for designing aerodynamic systems. The course's focus on fluid motion, including topics like the Linear Momentum Equation and Stagnation Pressure, plays a role in understanding how air flows around an aircraft or rocket. Seeing fully worked examples in the course can also enhance your problem-solving skills, which are essential for an aerospace engineer.

See salaries and explore the career path for Aerospace Engineer

Automotive Engineer

Automotive engineers design and develop vehicles and their components. Fluid mechanics is important in areas like aerodynamics, engine cooling, and fuel systems. By covering topics such as the Bernoulli Equation and Dynamic Pressures, this course helps you understand how air flows around a vehicle and how fluids behave within its systems. Automotive engineers may find the focus on real-world examples to be a practical application of these concepts.

See salaries and explore the career path for Automotive Engineer

Consulting Engineer

Consulting engineers provide expert advice and design services to clients in various industries. If you specialize in projects that involve fluid mechanics, then this course is a helpful aid in your pursuit. With topics like the Bernoulli Equation and Conservation of Mass, the course provides a broad introduction to your consulting work. The course's emphasis on real-world examples can also help strengthen your problem-solving abilities and provide practical insights for client projects.

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Manufacturing Engineer

Manufacturing engineers work to improve efficiency and reduce costs in factories and production plants. Analyzing and optimizing fluid flow in manufacturing processes makes this course helpful. By covering topics such as Volumetric Flow and the Bernoulli Equation, this course can help you understand and improve fluid-related aspects of manufacturing. The fully-worked examples in the course are great resources for seeing how these concepts are applied in real-world scenarios.

See salaries and explore the career path for Manufacturing Engineer

Research Scientist

Research scientists plan and conduct experiments, analyze data, and publish findings to advance knowledge in various fields. If your research involves fluid dynamics, this course can be very helpful. The topics covered, such as the Reynolds Transport Theorem and Conservation of Mass, provide a base for understanding fluid behavior in experimental setups. The course's focus on fully-worked examples can also strengthen your analytical skills.

See salaries and explore the career path for Research Scientist

Test Engineer

Test engineers design and conduct tests to ensure products meet certain standards and specifications. If you are testing systems involving fluid flow, then this course helps with that process by giving a better understanding of the underlying principles. The course covers topics such as Volumetric Flow and Pressure Measurements. Test engineers may find the course useful for interpreting test data and identifying potential issues.

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Naval Architect

Naval architects design, construct, and repair ships, boats, and other marine vessels. The study of fluid mechanics is extremely important for this role. This course, may be useful in designing a ship that is hydrodynamic and stable. The Reynolds Transport Theorem, Linear Momentum Equation, and Bernoulli Equation are all helpful when calculating the effect of water on these vessels. Naval architects can benefit from understanding the movement of fluids.

See salaries and explore the career path for Naval Architect

Meteorologist

Meteorologists study the atmosphere and weather patterns to forecast weather conditions. Since the atmosphere is essentially a fluid, this course may be useful. The principles of fluid mechanics, such as the Reynolds Transport Theorem and Conservation of Mass, can play a role in understanding atmospheric phenomena. Meteorologists may value the knowledge this course presents.

See salaries and explore the career path for Meteorologist

Researcher

Researchers design and conduct studies that contribute to the body of knowledge in their field. For researchers whose studies involve fluid flow, such as those in bioengineering or microfluidics, this course may be useful. The course's coverage of topics like the Linear Momentum Equation and Bernoulli Equation will give insight into the behavior of fluids in research models. The detailed examples can enhance your ability to analyze and interpret experimental data.

See salaries and explore the career path for Researcher

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 Intro to Fluid Mechanics for Engineering Students Part 2.

Schaum's Outline of Fluid Mechanics, Second Edition

Save

This Schaum's Outline provides a concise overview of fluid mechanics principles, along with numerous solved problems. It is an excellent resource for students who want to practice problem-solving and reinforce their understanding of the material. It is particularly helpful for students who learn best by working through examples. useful supplement for practice problems.

Schaum's Outline of Fluid Mechanics, Second Edition...

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Intro to Fluid Mechanics for Engineering Students Part 2

What's inside

Learning objectives

Syllabus

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Save this course

Reviews summary

Intro to fluid mechanics part 2

Activities

Career center

Reading list

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