The top 20 Mechanical Engineering courses you need to take

1. Quantum Mechanics for Engineers

This Specialization is intended for engineers seeking to acquire fundamental understanding of quantum mechanics which are the basis of modern electrical, mechanical and quantum engineering. Through 3 courses, you will learn (1) basic concepts such as superposition and entanglement of quantum states, measurement in quantum mechanics and uncertainty principle, (2) mathematical tools needed to describe and manipulate quantum states, (3) advanced theory of angular momentum and (4) approximation methods widely applicable in many fields...

2. Engineering Mechanics: Statics

4.8

(611)

What is Statics and how will it help me? Statics is typically the first engineering mechanics course taught in university-level engineering programs.  It is the study of objects that are either at rest, or moving with a constant velocity.  Statics is important in the development of problem solving skills.  It teaches you to think about how forces and bodies act and react to one another.  You learn how to analyze word problems, pull out the important information and then solve.  One of the most important aspects of this course is the use of free body diagrams.  Free body diagrams (FBDs) are used endlessly in many engineering courses and this course is where you will perfect your FBD drawing skills. The material and thought processes learned in this class will be of great benefit to you in any other application where you are analyzing relationships between objects and applying math concepts. Why is this course better than the others? Have you ever been in a class and been frustrated by the lack of fully-worked examples? This will not be that class.  I understand the frustration - I used to feel the same way.  Because of that, I teach my classes in a way that I would've preferred as a student.  Handwritten notes, simple explanations, and plenty of examples in a variety of difficulty levels.  You will not find PowerPoint slides here. To test your knowledge there are exams.  In case you get stuck, video solutions are provided. I also don't assume you know more than you do - we'll start with the basics and work our way up to more complex material. What will I learn in this course? Some of the topics we will cover: - Vector and scalar operations - Cartesian vectors - Projection of a force along a line - Free body diagrams - 2-D and 3-D equilibrium for particles and rigid bodies - Moments of forces - Couple moments - Methods of joints and sections - Centroids - Moments of inertia - and more! What do I need to know before starting? The typical prerequisites for this class are Physics 1 and Calculus.  We will be using a few derivatives and integrals so you should be familiar with those concepts. We will cover everything else you need. Is there a recommended textbook? I, along with most students I've taught, really like the Engineering Mechanics - Statics text by Hibbeler.  If you don't already have a textbook this one would be a great resource, although it is not required for this course.   Why wait? There's no better time than now! Enroll today!...

3. Diesel Engine Fundamentals (Mechanical Engineering)

4.6

(374)

Without exception, the reciprocating piston engine is the most influential machine ever invented by mankind. From its early beginnings as a steam engine, the piston engine has revolutionised the way we live, work and travel. This course will teach you about this truly amazing machine. You will learn: How An Engine WorksHow Two Stroke and Four Stroke Engines WorkThe Difference Between Petrol/Gasoline and Diesel Engines Engine Components (Piston Rings, Rocker Arms, Valves etc.)Engine Systems (Water, Oil, Air, Exhaust and Electrical)Engine Terminology (BDC, TDC, Firing Order etc.)How Engine Ancillaries Work (Turbocharger, Supercharger etc.)A Lot About Mechanical Engineering! A Lot About Automotive Engineering and Automobile Engineering! And a lot more!*** Note that this course focuses more on the diesel fired engine type rather than the petrol/gasoline type, but gives a general good overview concerning the internal combustion (IC) engine. This video course is part of a Mechanical Engineering video series (see our other courses for more info).***This course is designed to take you from zero to hero concerning combustion engine knowledge. Even if you already have some background knowledge, this course will serve as an efficient refresher. Whatever your level of understanding, or engineering background (mechanical engineering, automobile engineering, automotive engineering, oil and gas, HVAC, power engineering, chemical engineering etc.), we can guarantee you will have never taken an engineering course like this one (unless you have taken one of our other courses...). Why this course?Because saVRee and saVRee lite have trained over 5,000 students on Udemy with an average paid course rating of 4.7/5.0! Interactive 3D models are used extensively to show you each individual engine component and how components work together to complete useful work. We strongly recommend you checkout the free preview videos before signing-up because we know you won't be disappointed. The course is packed with 2D images, 2D animations and 3D animations. Written content has been read aloud so that you can 'learn on the go' without needing to watch the screen constantly. Don't waste more time reading this course description, check-out the free preview videos and the curriculum, then make an informed decision. All purchases come with a 30 day no-questions-asked refund policy. Hope to see you on the course!...

4. Mechanical Engineering and Electrical Engineering Explained

4.8

(1,152)

Want to know how things work? How electricity is generated and transmitted to your home? How engines are cooled? Or how hydroelectric power stations work? Well, this is the right course for you! This course contains over 10 hours of engineering related video tutorials. You will learn: How Two and Four Stroke Engines WorkHow Boilers Work How Electrical Transformers WorkHow Valves Work (Ball, Gate, Globe etc.)How Primary Clarifiers WorkHow Power Generation Machinery Works (Renewable and Non-Renewable Energy)How HVAC machinery works. How Oil and Gas machinery works. And a lot more! If you are working in the following industries, you will get a big benefit from this course: HVACOil and GasChemical EngineeringPower EngineeringMechanical EngineeringAutomotive EngineeringPower GenerationWhy this course?Because saVRee and saVRee lite have trained over 20,000 students on Udemy with an average paid course rating of 4.5/5.0. Interactive 3D models are used extensively to show you machinery components and how they can be put together to form machines that complete useful work. 3D models are also used to show you how various power stations work. The course is packed with 2D images, 2D animations, Downloadable Infographics, Downloadable Quiz Booklets and 3D animations. Don't waste more time reading this course description, check-out the curriculum, then sign-up for this course! All purchases come with a 30 day no risk money back guarantee! Hope to see you on the course!...

5. Internal Combustion Engine Basics (Mechanical Engineering)

4.5

(723)

Internal combustion (IC) engines are not only used in the automotive engineering and automobile engineering industries. They are used to rotate pumps, generator rotors, fans and many other machines. But what are internal combustion engines? Why do we use petrol/gasoline and diesel fuels instead of just one type of fuel? And how do these astounding machines work? This course will answer all of these questions and many more! You will learn: How two stroke engines work. How four stroke engines work. How internal combustion (IC) engines work. What the differences between petrol/gasoline and diesel engines are. How petrol and diesel engines work. Identify all of an engine's main components and their function (crankshaft, piston, camshaft etc.). Know all of an engines ancillary systems and what they do (oil, fuel, water etc.). Irrespective of your background, learning about internal combustion engines will benefit you greatly. They are used as prime movers in cars, vans, trains, motorbikes, scooters, lawnmowers, leaf blowers and many other machines. So even if you are not an engineer, or training to become one, the knowledge you gain will always be useful, because a combustion engine is never far away! Why this course?Because saVRee and saVRee lite have trained over 6,000 students on Udemy with an average course rating of 4.7/5.0! Interactive 3D models have been used to show you every engine component in detail. 3D animations show how each engine and component works.2D images have been used to highlight areas of interest. Check out some of the free preview videos to learn more, you won't be disappointed! All purchases come with a 30 days refund option. Hope to see you on the course!...

6. Python for Mechanical Engineers

4.3

(444)

This Course will bring awareness of importance of python and applications of python in solving engineering problems. We will see some important libraries like SciPy, Numpy, Matplotlib, Pandas etc. used in scientific computation. This course includes Python Programs on Mechanics, Machine Design, Fluid Mechanics, Thermal Science, Heat Transfer, Vibrations, Optimization etc. It has covered various types of plots including line plots and 2D,3D contours plots where we can use this in visualizing engineering data. We will review how to make plots as well as how to make interactive plots, analyze test data and some optimization part. It covers from basic to advanced programs in mechanical fields. It has following sections1. Basic Concepts in Python2. Programs on Mechanics, Machine Design etc.3. Programs on Mechanical Vibrations4. Programs on Fluid Mechanics, Thermal Science and Heat Problems.5. Programs on Engineering Mathematics6. Some Advanced programs like FFT use, Filter, Data Analysis. What you will learn,- Importance of python in mechanical fields in research and computations.- Basics of Python programs from engineering point of view.- Learn to solve engineering problems.- Make yourself ready for one step ahead.- You can build a project on yourself in your favorite domain.- You will be able to use loops, functions, different libraries, custom functions to solve engineering problems...

7. Mechanics / Statics - Introduction to Mechanical Engineering

4.5

(263)

This course serves as a springboard into Engineering Solid Mechanics for new students or as a refresher for students already familiar with some of the concepts and are looking for somewhere to brush up the fundamentals. The course covers a broad spectrum of common topics that are applicable to a wide variety of situations in numerous engineering sectors; Forces (including Newtons Laws)Engineering stress and strainModulus of Elasticity and Poisson's RatioStiffness (Geometric)Bending of BeamsStresses in beam bendingStrut BucklingThermal expansionPin jointed frame worksShearingTorsionThin wall pressure vessel theory All of these topics are fascinating and are around the A-level to University level in terms of technical content. but don't worry! We cover these topics in a logical order and start off simple so that we do not lose you along the way. Most videos follow the format of a discussion of the theory and then we go through a worked example. We then recommend that students have a go at the practice questions that accompany most videos so that you can put your skills to the test. There are full worked solutions so you are able to check how you perform.  We at Learn-Ed believe that the format of Theory - Worked example - Have a go for your self is one of the best methods of learning - particularly the Have a go for yourself element. We also try to describe various applications that each theory has to help give context as to why its interesting to learn about. We hope to see you in our lessons! Note: This course does not replace a formal qualification. Formal qualifications in engineering can be obtained through colleges or universities and these may be of interest to you if you enjoyed this course...

8. Engineering Mechanics for 1st Year Engineering Students

3.8

(77)

Never go to an Engineering Mechanics Tuition Class again! When you sign up for this course, we offer premium services and exclusive content. - View offline: Slow internet, no problem - download and watch offline on your iPad and iPhone - Track Preparation: Track how much and what you have completed - Resume: Continue from where you left off - Watch at 2x: Watch videos twice as fast, finish your preparation in half the time - Learn anywhere: Prepare for your exam without the travel overhead of tuition classes Pay Securely Online via PayPal, Debit Card or Credit Card This course is directed towards the 1st year engineering students. Students of Mumbai University will also find solutions to previous exam papers solved in this course...

9. The Complete Engineering Mechanics Course

4.5

(311)

'The Complete Engineering Mechanics Course' makes complicated mechanics calculations easy! This course includes video and text explanations of everything in engineering mechanics, and it includes more than 60 worked through examples with easy-to-understand explanations. 'The Complete Engineering Mechanics Course' is organized into five sections: Particle Equilibrium. Rigid Body Equilibrium. Structural Analysis. Centroids and Inertia. Internal Forces in Structural Members. These are the five fundamental chapters in the study of engineering mechanics. And here's what you get inside of every lesson: Videos: Watch over my shoulder as I solve problems for every single mechanics issue you'll encounter in class. We start from the beginning. First I teach the theory. Then I do an example problem. I explain the problem, the steps I take and why I take them, how to work through the yucky, fuzzy middle parts, and how to simplify the answer when you get it. Notes: The notes section of each theory lesson is where you find the most important things to remember. The notes include tips and tricks on how to study as well as how to save time in tests and exams. Ultimately, I cover everything you need to know to pass your class and nothing you don't. One-On-One Assistance: You can ask me for mechanics help in the Q & A section any time, any day whether it's related to the video content or another problem you're struggling with at home. Either way, I'm here to help you pass and do the best you possibly can!...

10. Engineering Mechanics: Dynamics Part 1

4.8

(177)

What is Dynamics? Dynamics is the study of bodies in motion.  In this course we will cover all the derivations you need for particle motion.  In addition, we will work through many examples over each topic.  Feel like you are teaching yourself in class? If you are currently taking Dynamics and you have no idea what your professor is talking about, sign up for this course!  I teach in a simple, straightforward method with plenty of examples to help you learn. I show all the steps needed to solve the problems and I don't assume you know more than you do.  We will cover these topics: Chapter 1 - Kinematics of a ParticleRectilinear MotionCurvilinear Motion - Rectangular CoordinatesProjectile MotionCurvilinear Motion - Normal & Tangential CoordinatesCurvilinear Motion - Polar CoordinatesRelative MotionConstrained Motion of ParticlesChapter 2 - Kinetics of Particles: Force & AccelerationNewton's 2nd LawEquations of MotionRectangular CoordinatesNormal & Tangential CoordinatesChapter 3 - Kinetics of Particles: Work & EnergyWork of a ForceWork & EnergyPotential EnergyChapter 4 - Kinetics of Particles:  Impulse & MomentumLinear Impulse & MomentumAngular MomentumAngular Impulse & Momentum...

11. Engineering Mechanics: Dynamics Part 2

4.8

(67)

What is Dynamics and how will it help me? Dynamics is typically the second or third engineering mechanics course taught in university-level engineering programs.  It is the study of objects in motion.  Dynamics is important in the development of problem solving skills.   The material and thought processes learned in this class will be of great benefit to you in any other application where you are analyzing objects and their motion. What will I learn in this course? This is Part 2 of my Dynamics series.  Part 1 covers the motion of particles.  This course covers the motion of rigid bodies. Some of the topics we will cover: Section 1: Kinematics of Rigid BodiesRotation about a fixed axisAbsolute MotionRelative VelocityRelative AccelerationMotion Relative to Rotating AxesSection 2: Kinetics of Rigid BodiesTranslationFixed Axis RotationGeneral Plane MotionWhat do I need to know before starting? The prerequisite courses for this class are Statics, Calculus and Dynamics of Particles.  We will be using a few derivatives and integrals, as well as moments of inertia, so you should be familiar with those concepts. We will cover everything else you need. Is there a recommended textbook? I, along with most students I've taught, really like the Engineering Mechanics - Dynamics text by Hibbeler.  If you don't already have a textbook this one would be a great resource, although it is not required for this course. Why is this course better than the others? Have you ever been in a class and been frustrated by the lack of fully-worked examples? This will not be that class.  I understand the frustration - I used to feel the same way.  Because of that, I teach my classes in a way that I would've preferred as a student.  Handwritten notes, simple explanations, and plenty of examples in a variety of difficulty levels.  You will not find PowerPoint slides here. Why wait? There's no better time than now! Enroll today!...

12. Mechanical Engineering Design - Overview

4.6

(60)

Do you want to learn the most significant concepts of Engineering Drawing/Design?From the comfort of your home, at your own pace, without attending classes, or push your way through endless textbooks/online guides… Then boom! you are at the right place:)Even if you have NO knowledge about Drawing… this course will make you learn to understand all the aspects of Engineering Design. The course is divided into two parts. Additionally, from this course, you'll learn and get acquainted with ANSYS software for Numerical Simulation, ORIGIN software for data analysis, Tecplot 360 for results, and visualization. You will find videos in the course specially created for making you understand these! By the end of this course, you will be confident and proficient with the concepts of Engineering Design. The complete package will give you an opportunity to understand the methodology followed by the research organizations in developing novel designs. MAKING YOU AN EXPERT AND A PROFESSIONAL ENGINEERSign up today, and here's what you'll get:· All the knowledge you need to start building any DESIGN you can dream of· 500 dollars' worth of design assets· Assistance for your researchYou do not need to have any prerequisites for completing this course, we will teach you everything from the scratchRookie to Pro in Engineering DesignBy the end of this course you will be familiar with these concepts:· Engineering Drawing and its types- Orthographic Projections- First Angle and Third Angle of Projections- Symbol of Projection- View Selection- Basic Dimensions in Engineering Drawing - Tangencies and Intersections- Types of Lines used in Engineering Drawing- Basic Information in Engineering Drawing- Drawing Layout - Types of Drawing- Introduction to CAD (Computer Aided Designing)- Engineering Design Process- Features of CAD- Types of Modelling- Sample CAD modelling ExercisesDon't waste your time! Don't waste another minute of your precious life on poor quality videos on YouTube. Or instructors with accents you can't understand. Or teachers who have no real-world in-person teaching experience. Your learning and your time's worth more than that. As you sit there contemplating the sea of different courses, you'll realize that there's no reason to deliberate. The best course is right in front of your eyes. I am looking forward to Teaching you all About the concepts of Engineering Design from the Technical Drawing to the Computational Aided Designing...

13. 100+ MECHANICAL engineering INTERVIEW questions

4

(57)

Mechanical engineering final year students, graduates and even professionals, often stumbles to find a righteous guide towards acing their INTERVIEW or VIVA. I too as a student, gone through the same. In my 8+ years of industrial career, I have encountered numerous interviews and the ordeal that followed. So here is my effort to make it somewhat easy for you guys. I have compiled 100+ mechanical engineering INTERVIEW/VIVA questions which would surely help you out not only in acing interviews or viva, But also in strengthening your academics. If you are a mechanical engineering final year/Pre-final year student, A graduate, Or even a working professional, This course is meant for you. More than a hundred questions are discussed from the realm of mechanical engineering. The course is designed in such a way that most of the major subjects are covered as such -Basic Mechanical Engineering (BME)Manufacturing ScienceMaterial ScienceStrength Of Material (SOM)Theory Of Machine (TOM)Automobile EngineeringFluid Mechanics (FM)ThermodynamicsRefrigeration & Air Conditioning (RAC)Heat & Mass Transfer (HMT) & Many more. There are two answers for every question in the course -Explanatory Answer - Which contains relatively easy language & practical approach. Interview Answer - Bit theoretical (Boring) but can be considered apt while facing Interview/Viva. The questions are divided into three levels - EASY, MEDIUM & HARD. However you might think a hard question as a easy one or vice-versa. In either case, You are always going to get one thing in return - KNOWLEDGE!!...

14. Thermodynamics - Introduction to Mechanical Engineering

4.5

(140)

This course serves as a springboard into Engineering Thermodynamics for new students or as a refresher for students already familiar with some of the concepts and are looking for somewhere to brush up the fundamentals. The course covers a broad spectrum of common topics that are applicable to a wide variety of situations in numerous engineering sectors;Hydrostatic pressure theoryBuoyancy and Archimedes PrincipleFluid flow (Reynolds number, types of flow & viscous fluid flow)Bernoulli's EquationLift and DragCombustionThermo power cycles (including the Carnot cycle, Otto cycle & Diesel cycle)All of these topics are fascinating and are around the A-level to University level in terms of technical content. but don't worry! We cover these topics in a logical order and start off simple so that we do not lose you along the way. Most videos follow the format of a discussion of the theory and then we go through a worked example. We then recommend that students have a go at the practice questions that accompany most videos so that you can put your skills to the test. There are full worked solutions so you are able to check how you perform. We at Learn-Ed believe that the format of Theory - Worked example - Have a go for your self is one of the best methods of learning - particularly the Have a go for yourself element. We also try to describe various applications that each theory has to help give context as to why its interesting to learn about. We hope to see you in our lessons! Note: This course does not replace a formal qualification. Formal qualifications in engineering can be obtained through colleges or universities and these may be of interest to you if you enjoyed this course...

15. SOLIDWORKS 3D CAD for Mechanical Engineering

3.9

(51)

Learn design like a Pro using SolidWorks! Practice your skills using the example given with the PDF attached! Hold down your middle mouse button to rotate the part! In this course you will learn to find your way around SolidWorks and learn to draw a simple part, as well as learn to layout a drawing. Sketching is covered as well as basic design features such as extrusion, fillets, cuts etc. Enjoy!!...

16. Intro to Mechanical Design engineering skillset

4.3

(246)

DIsclaimer: This course is  made from the perspective of a mechanical engineer entering into the field of Design engineering as a graduateDesign engineering is the core function of any product development effort in manufacturing. This course aims to build a holistic understanding of the profession of design engineering by covering Role of design engineer in developing products with 3 examplesThe Engineering Design process Insightful understanding of skills and knowledge required from design engineerUnderstand concept development, prototyping and research and why they are importantTeams in Mechanical product development The Design Life-cycle of a partUnderstanding Engineering analysis and how it fits into design engineeringLevels of engineering analysis and why computation is requiredThe various Design considerations to be made during design Engineering drawing importance, Cost of Bad design Why use GD & T in engineering drawings?take this course ifYou are aspiring to be a design engineer and want to understand more in detail as to what design engineers do You are enthusiastic about engineering and design and want to design your own products...

17. Introduction to Orbital Mechanics for Engineering Students

4.6

(154)

This course covers material typically found in the first half of a university-level Orbital Mechanics or Astrodynamics course.  You'll learn all the fundamentals of elliptical orbits.  We'll go through and derive equations like the trajectory equation, Kepler's equation and more.  Once you finish this course you'll be able to determine the position and velocity of orbiting bodies, understand the 6 orbital elements, apply Newton's root-finding method to Kepler's equation and much more! Topics we'll coverRelative 2-body equationAngular momentumPolar coordinates and energyTrajectory equationElliptical orbitsKepler's lawsKepler's equationNewton's root finding methodOrbital elementsConversion from position and velocity vectors to orbital elementsConversion from orbital elements to position and velocity vectors...

18. Autodesk CAD/CAM/CAE for Mechanical Engineering

The demand placed on today’s engineers goes above and beyond the job description. Products have become complex and engineers are more frequently asked to leave specialized roles and to take on a wide variety of tasks that are beyond their traditional responsibilities. These tasks are centered on form, fit, and function. Engineers need to factor in broader concerns such as cost, procurement, sustainability, manufacturability, and serviceability. Their role has moved away from an individual responsibility to working as part of a collaborative engineering team, executing tradeoffs with both engineering and business stakeholders to meet project goals. These trends have forced today’s engineers to broaden their skillset to be successful.\n\nEngineers today are required to be on the cutting edge of design innovation. This means not only understanding engineering principles that govern the title and role, but also perfecting the toolsets needed to design and develop products.\n\nThrough this specialization, you’ll learn the foundations of applying computer aided design (CAD), computer aided engineering (CAE), and manufacturing principles while developing your technical skills within Autodesk Fusion 360.\n\nLooking for Autodesk Fusion 360 certification prep courses? Check out additional learning resources to help you uplevel your skills...

19. Engineering Dynamics course & examples, 15+hours mechanical

4.1

(80)

DynamicsEngineering mechanics is both a foundation and a framework for most of the branches of engineering. Many of the topics in such areas as civil, mechanical, aerospace, and agricultural engineering, and of course engineering mechanics itself, are based upon the subjects of statics and dynamics. Even in a discipline such as electrical engineering, practitioners, in the course of considering the electrical components of a robotic device or a manufacturing process, may find themselves first having to deal with the mechanics involved. Thus, the engineering mechanics sequence is critical to the engineering curriculum. The primary purpose of the study of engineering mechanics is to develop the capacity to predict the effects of force and motion while carrying out the creative design functions of engineering. The aim of this course is to set a great foundation of dynamics for most of the engineering students. This course is for those students in second year of university who have good knowledge of Statics and Mathematics. Before starting this course you should be with some basic and important subjects, including applied mathematics, physics, and graphics. In addition, these courses serve as excellent settings in which to strengthen problem-solving abilities. In first for chapters that constitute the first part of our course we cover the dynamics of particles. In second part of the course we go and obtain the equations for rigid bodies. Keywords: Mechanical Dynamic Mechanic Dynamic mechanical engineering...