2021 Complete guide on optimization problems in Mechanics
Learn how to formulate and solve your problems in GAMS
Created by Optimization Team  Optimization expert
Students: 8894, Price: $19.99
Students: 8894, Price: Paid
This course presents a methodological and systematic set of guidelines and applications of optimization algorithms (e.g. GAMS) for realworld problems in mechanical engineering.
It provides an invaluable resource for undergraduate/postgraduate students as well as practicing engineers working in the mechanical engineering sector
It contains several applied casestudies, industrial and practical examples.
In this course, you will learn:

The basics of optimization techniques applied to mechanical engineering problems.

The problemsolving skill that enables you to deal with the practical aspects of optimization and mechanical engineering.

How to formulate a realworld mechanical engineering problem as an engineering optimization problem.

How to write optimization codes for applying on mechanical engineering problems.

How to deal with real problems from industry and the approach that should be taken to solve them.
Soil Mechanics
Soil Mechanics, Geotechnical Engineering, and Civil Engineering
Created by Vipin Joshi  B.Tech, M.Tech, IFERP, Editorial Board Member IJRAST
Students: 7776, Price: $49.99
Students: 7776, Price: Paid
An extensive course for UG Civil students, PG Scholars, Research Professionals, Consultants, and the Professionals from Geotechnical Background. The course covers all the basic learning that will be required to carry out complex Geotechnical works in the allied field.
Course Objectives:

In this course, the student will be able to understand the various topics and terminologies used in soil mechanics.

The course covers relevant topics from Soil Mechanics and gives you an insight on various topics in detail.

The course is designed keeping in view the practical aspects/ implementation of the subject concerned. The practical aspects covered in the course will be helpful for the student in running consultancy and boost his/her career prospects in the longer run.
Course Outcomes:

This course will be helpful for Practicing Engineers, Consultants, Undergraduate and Post Graduate students, Researchers, Industry Specialist, Lab Instructors, and a wide array of Geotechnical Design Engineers.
You'll Also Get:
✔ Lifetime Access to course updates
✔ Fast & Friendly Support in the Q&A section
✔ Udemy Certificate of Completion Ready for Download
Don't Miss Out!
Every second you wait is costing you getting access from valuable learning.
Don’t take my word for it. Check the reviews and see what other students are saying.
"Still now very smoothly going. Hope will ends well."  Ushnish Dutta
"thank u"  Ayman Hashim mahjoub
"Excellent teach about the subject"  Devananth
"Wonderful teaching sir.the way of teching is very good."  Binay kumar
"good"  Vishal Gautam
"I am about to complete the first section of the lecture series but already love his style of teaching. I don't think I have ever seen anyone explain these concepts in such an easy manner while illustrating the concepts through examples. I'll be giving a more detailed review when I finish the entire course."  Ajay Naithwal
"Good"  Harsh Prakashchandra Tiwari
I guarantee this is the most uptodate and engaging course available, and it comes with a 30day moneyback guarantee.
We have a 30day 100% moneyback guarantee, so if you aren't happy with your purchase, we will refund your course  no questions asked!
Fundamentals of Fluid Mechanics
Fluid Statics, Forces on Plane and Curved Surfaces, Manometers, Bernoulli Equation, Linear Momentum, Mass Conservation
Created by Prof. Samer  Professor of Mechanical Engineering
Students: 7566, Price: $49.99
Students: 7566, Price: Paid
Introduction to fluid properties, viscosity, surface tension, pressure distribution in fluid, hydrostatic forces on plane and curved surfaces, buoyancy , and pressure measurement using manometers and barometers. Integral relations for a control volume, mass conservation, linear momentum equation, energy and Bernoulli equations are discussed.
37 problems are solved in order to bridge the gap between knowledge and application.
Fluid mechanics basics
Fluid statics
Created by Gorbi John  Mechanical engineer
Students: 7026, Price: Free
Students: 7026, Price: Free
This course will brief you about the basics of fluid mechanics.We start with various definitions it's explanation.Then into different concepts like viscosity,surface tension , capillarity,thermodynamic properties of fluids.We are explaining each concept by taking a dailylife example.Then we formulate the mathematical expression for the same to measure the magnitude of each property
Engineering Mechanics – An Introduction
Engineering Mechanics  Study of internal resistance developed in the body in response to external loading
Created by Yoshida Rao  Mechanical Engineering Instructor
Students: 6694, Price: Free
Students: 6694, Price: Free
This course is for students in Physics, Mechanical Engineering, Applied Mechanics and Civil Engineering. This course introduces many definitions like Structures, Mechanisms, Deformable body, Rigid Body, Body force, Boundary force, Method of Sections, Equilibrium equations, degrees of freedom, Trusses, Beams, Frames, Cables and Shafts. This short course prepares student for the further study of Mechanics of Solids, Strength of Materials or Design of structures.
Mechanics: Introduction to Statics – Statics in 1,5 hours
Understand Mechanics from scratch: the one statics course you need to get started with engineering statics and mechanics
Created by Yaser M.A.A.  Mechanical Engineering
Students: 6539, Price: $89.99
Students: 6539, Price: Paid
Engineering mechanics, especially statics is the backbone of all mechanical engineering disciplines. being comfortable with the concepts of statics is an essential component in your toolbox on your path to be a successful engineer.
In this course we will go from understanding very basic concepts of physics like time, length and mass step by step through studying motion and working with forces and force components into understanding equilibrium of particles and bodies
After finishing the course you will be able to isolate mechanical subsystems and represent them with their free body diagram including the external forces acting on it and the reactions of the supports.
the following concepts will be discussed in the course

Section one: The fundamentals

What is mechanics

The building blocks of mechanics: Time, length and mass

Motion: Position, velocity and acceleration


Section two: Newton Laws

Newtons first law: What is there is no force?

Newton's second law: What if there is a force?

Newton's third law: What happens to objects that apply force?


Equilibrium and working with forces

Force

Weight

Equilibrium of a particle

Breaking forces into their components, working with a force as a vector

The Moment of a force

Equilibrium of a body


Reactions and FBD

Reaction of smooth and rough surfaces

Friction

Reactions of supports

Smooth and rough surfaces

Roller supports,

Pinned connections

Fixed connections

Sliding supports

Free body diagram FBD

the course will be followed by three other courses as a part of a complete engineering mechanics module
we are looking forward to have you in this engaging and rewarding course!
Advanced Fluid Mechanics
Continuity, NavierStokes, Potential flow, Buckingham PI Theorem, Pump, Turbine, Pressure Loss, Fittings, Drag and Lift
Created by Prof. Samer  Professor of Mechanical Engineering
Students: 5747, Price: $69.99
Students: 5747, Price: Paid
This is Advanced Fluid Mechanics which is a continuation of Fundamentals of Fluid Mechanics course. It includes:
Differential relations for fluid particles, fluid acceleration, Continuity equation, Potential flows and NavierStokes equation are introduced. Dimensional analysis and similarity, principle of dimensional homogeneity Pi theorem, nondimensionalization of basic equations, modeling and its pitfalls. Flow in ducts and boundary layer flows. Pressure drop calculations. Minor losses in fittings. Energy equation applied to pumps and turbines. Flow over immersed bodies. Drag and Lift Calculations. Matlab codes for potential flows are also supplied.
Fundamentals of Dynamics for Engineering Students
Improve your grades by mastering the fundamental concepts of engineering mechanics: dynamics
Created by Foster Lubbe  Engineer
Students: 5270, Price: $29.99
Students: 5270, Price: Paid
This course covers the material typically included in a first university course in Engineering Mechanics: Dynamics. The focus of the course is on the fundamentals  you will learn the theory and also be guided by examples  in order for you to improve your university grades. This course is therefore the ideal supplement to your first university course in Engineering Mechanics: Dynamics, but can also be taken as a standalone course by anyone who wants to learn the fundamentals of engineering dynamics.
The Mechanics of Watercolor Painting
A comprehensive approach to the fundamentals of watercolor painting.
Created by Jill Poyerd  Professional Artist and Fine Arts Educator
Students: 4449, Price: $29.99
Students: 4449, Price: Paid
List price of $49.99 now $29.99
"I absolutely loved this course! She is a fantastic teacher, very easy to listen to and the information is taught in a methodical and easy to understand way. I feel very ready to move on to bigger things now."  Cherilyn B.
The Mechanics of Watercolor Painting is a stepbystep course designed to guide students through all the necessary skills needed to paint with watercolor paints. Using her approachable, easytounderstand teaching method and lots of handson activities, artist Jill Poyerd walks viewers through a total of nearly four hours of lectures and over 30 student activities, covering topics like brush handling, color mixing, paint application, and much much more.
We begin by learn all about your workspace. It’s important to have all of your tools readily available when you work. Then we discuss the many aspects of brushes, from how to physically handle a brush to how to properly dilute your paints.
Next, the course focuses on how to mix your paints and how to get acquainted with your specific selection of colors.
And finally, once we have a solid knowledge base, we learn about the three different application methods  controlled, semicontrolled, and uncontrolled paint application. We close the course with a watercolor painting demonstration so students can understand how it can all be put into practice.
This course is one of the most comprehensive classes you will find online related to learning how to use watercolors. It’s primarily aimed at the beginning painter, but it can apply to anyone who feels they may be lacking something in their knowledge when they paint in this medium.
The Complete Engineering Mechanics Course
Master the fundamentals of mechanics, statics and applied physics and then solve realworld mechanics problems.
Created by Leon Petrou  Systems Engineer at FutureRPA
Students: 3456, Price: $89.99
Students: 3456, Price: Paid
'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 easytounderstand 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.
OneOnOne 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!
OSHA Safety Pro: Trenching Excavation & Soil Mechanics
A quick yet detailed certification in OSHA safety with a focus on Trenching, Excavation, & Soil Mechanics.
Created by James Neil  Health & Safety Official
Students: 3313, Price: $19.99
Students: 3313, Price: Paid
This course will enable employees, safety officers, and supervisors in receiving that much deserved promotion by showing to their employers that they have what it takes to be a safety minded, accident preventing team member. This course will focus on OSHA's Soil, Trenching, and Excavation standard 1926 Subpart P, however, it is designed to further develop the team member in becoming a well rounded, safety conscious enabler.
This course is a video course with the occasional quiz after a section.
Taking this course enables you to not only to become compliant on a project, but because your life, and the life of your colleagues matter, this course will ensure that you go home at the end of the day in the same manner in which you left for work.
Engineering Mechanics: Statics
The Study of Objects in Equilibrium
Created by Cherish Qualls, PhD  Professional Engineer and University Professor
Students: 2464, Price: $109.99
Students: 2464, Price: Paid
What is Statics and how will it help me?
Statics is typically the first engineering mechanics course taught in universitylevel 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 fullyworked 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
 2D and 3D 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!
Soil Mechanics Solved Examples – Consolidation
Sharpen your problemsolving skills on the topic of soil consolidation
Created by Mostafa Ismail  PhD Civil Engineerng (Geotechnical)
Students: 1840, Price: $19.99
Students: 1840, Price: Paid
This 3hour course presents a stepbystep solution to a comprehensive range of 1d consolidation problems for civil engineering students and professionals.
It covers the gap that exists in mainstream curricula that lack sufficient coverage of solved examples due to time limitations.
I have carefully selected the course problems so that they match those that you may come across in your assignments or exams. The course is also applicable to reallife settlement problems in clayey soils.
Mechanics / Statics – Introduction to Mechanical Engineering
Engineering Solid Mechanics / Engineering Statics
Created by LearnEd Online  Instructor
Students: 1530, Price: $74.99
Students: 1530, Price: Paid
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 strain
 Modulus of Elasticity and Poisson's Ratio
 Stiffness (Geometric)
 Bending of Beams
 Stresses in beam bending
 Strut Buckling
 Thermal expansion
 Pin jointed frame works
 Shearing
 Torsion
 Thin wall pressure vessel theory
All of these topics are fascinating and are around the Alevel 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 LearnEd 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.
Intro to Fluid Mechanics for Engineering Students Part 1
The basics of hydrostatics, buoyancy and more
Created by Cherish Qualls, PhD  Professional Engineer and University Professor
Students: 1499, Price: $69.99
Students: 1499, Price: Paid
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 fullyworked examples to help you learn the challenging subject of Fluid Mechanics.
This course is the first in a 3course series designed to teach the fundamentals of Fluid Mechanics.
Here's what we'll cover
This course covers the following topics that are generally found in a universitylevel Intro to Fluids class:

Properties of fluids  pressure, density, etc.

Ideal gas law

Viscosity

Hydrostatic forces of plane and curved surfaces

Buoyancy

And more!
Here's what you get when you enroll

Lifetime access to the course

Easy to follow, ondemand lecture videos

Plenty of fullyworked 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 hourlong lecture videos? I didn't think so.
To eliminate that frustration my lectures are broken up into shorter segments, typically 1215 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.
Engineering Mechanics: Dynamics Part 1
The Motion of Particles
Created by Cherish Qualls, PhD  Professional Engineer and University Professor
Students: 1221, Price: $99.99
Students: 1221, Price: Paid
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 Particle

Rectilinear Motion

Curvilinear Motion – Rectangular Coordinates

Projectile Motion

Curvilinear Motion – Normal & Tangential Coordinates

Curvilinear Motion – Polar Coordinates

Relative Motion

Constrained Motion of Particles
Chapter 2 – Kinetics of Particles: Force & Acceleration

Newton’s 2nd Law

Equations of Motion

Rectangular Coordinates

Normal & Tangential Coordinates
Chapter 3 – Kinetics of Particles: Work & Energy

Work of a Force

Work & Energy

Potential Energy
Chapter 4 – Kinetics of Particles: Impulse & Momentum

Linear Impulse & Momentum

Angular Momentum

Angular Impulse & Momentum
Intro to Fluid Mechanics for Engineering Students Part 2
Reynolds Transport Theorem, Conservation of Mass, Linear Momentum, Bernoulli's Equation and more
Created by Cherish Qualls, PhD  Professional Engineer and University Professor
Students: 1071, Price: $69.99
Students: 1071, Price: Paid
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 fullyworked examples to help you learn the challenging subject of Fluid Mechanics.
This course is the second in a 3course 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 universitylevel 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, ondemand lecture videos

Plenty of fullyworked 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 hourlong lecture videos? I didn't think so.
To eliminate that frustration my lectures are broken up into shorter segments, typically 1215 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.
Basics for Engineering Mechanics: Statics
First Course: General Principles and Force Vectors
Created by Mohammed M. H. AlTholaia  Assistant Professor and Professional Engineer
Students: 896, Price: Free
Students: 896, Price: Free
The main objective of this course is to illustrate Engineering Mechanics general principles and study in details force vectors in the two and three dimensional systems with several application examples. It includes several subtopics which can be summarized as follows: fundamental concepts in Mechanics, Units of Measurements in SI and FPS, numerical calculations and main steps for analysis, Vectors and Scalars, Vector Operations, Coplanar Forces addition and resultant, Cartesian vectors, and their resultant, Position vectors, Force vector along specific line of action, and Vectors dot product. So, student can learn the basics of Engineering Mechanics in general and Statics in particular such as the classifications, definitions, limitations and so on. In addition, the scalars and vectors definitions, differences and illustrations are provided in the course. Vectors operations, addition, subtraction, division and multiplication by a scalar are explained in details with several examples. Systems of units of measurements which are SI and FPS are provided with conversion factors for base and derived units. Forces such as coplanar, concurrent, and collinear are studied to find their resultants, magnitudes, and to express them as Cartesian vectors in both the two dimensional and three dimensional systems. Also, the direction angles of a force and resultant are delivered in details in the course. Position vector and force projection on a line are provided with several application examples. In addition, the vectors dot product and its applications have been provided with several examples.
Fundamentals of Spacecraft Engineering & Orbital Mechanics
Understand the Space Environment and the Engineering Behind Satellites, Launchers and Spacecraft Systems
Created by Eliott Wertheimer  Aerospace Engineer and Founder @FuroSystems
Students: 857, Price: $29.99
Students: 857, Price: Paid
ONE OF THE MOST COMPREHENSIVE, DETAILED AND APPROACHABLE ONLINE COURSES ON SPACE SCIENCE AND ENGINEERING!
Space vehicles are central to our modern world: they are the key to understanding our universe, spreading our race throughout the stars and provide ways of communication and observation that would never have been dreamed of in the past. This course offers the opportunity to learn and understand:
 The True Importance of Space Programs and the Space Industry.
 The Space Environment.
 The Engineering and Operational Purpose Behind all Spacecraft's Systems.
 The Science and Engineering Behind Rockets and Launch Vehicles.
 The Amazing Physics Behind Orbits and How We Harness Them.
I will thoroughly detail and walk you through each of these subjects and explain down to their fundamental principles, all concepts and subjectspecific vocabulary. This course is the ideal beginner or intermediate learning platform for Space and the engineering around it. Whatever your background, whether you are a student, a writer, a scifi addict, a computer scientist, an engineer, a business or sports person with an interest in Space, you will understand the fundamentals behind its technologies!
If you have any questions, please don't hesitate, I always aim at answering within the next 24hrs.
If this sounds like it might interest you, for your personal growth, career or academic endeavours, I strongly encourage you to join! You won't regret it!
Engineering Mechanics: Dynamics Part 2
The Study of Kinematics and Kinetics of Rigid Bodies
Created by Cherish Qualls, PhD  Professional Engineer and University Professor
Students: 832, Price: $69.99
Students: 832, Price: Paid
What is Dynamics and how will it help me?
Dynamics is typically the second or third engineering mechanics course taught in universitylevel 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 Bodies

Rotation about a fixed axis

Absolute Motion

Relative Velocity

Relative Acceleration

Motion Relative to Rotating Axes
Section 2: Kinetics of Rigid Bodies

Translation

Fixed Axis Rotation

General Plane Motion
What 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 fullyworked 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!
Engineering Mechanics for 1st Year Engineering Students
Learn Engineering Mechanics, anywhere, on your own, at your own pace.
Created by Shirish Vichare  Instructor for myEngineeringMechanics
Students: 732, Price: $19.99
Students: 732, Price: Paid
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.
Engineering Mechanics
Basics of Equilibrium
Created by Apurv Vaidya  Structural Engineer
Students: 669, Price: Free
Students: 669, Price: Free
This is the basic course on the chapter  Equilibrium.
The contents of this course are:
1) Definition of Equilibrium  In classical mechanics, a particle is in mechanical equilibrium if the net force on that particle is zero.
2) Free Body Diagram  Freebody diagrams are diagrams used to show the relative magnitude and direction of all forces acting upon an object in a given situation.
3) Lami's Theorem  When three forces acting at a point are in equilibrium, then each force is proportional to the sine of the angle between the other two forces.
4) Conditions of Equilibrium  ∑Fx=0, ∑Fy=0, translational equilibrium, ∑M=0, rotational equilibrium. The above three equations should be satisfied for 2D Equilibrium of the body. So in total there are three conditions of equilibrium for two dimensional cases and six conditions of equilibrium for three dimensional cases.
5) Problem on Equilibrium
6) Types of supports  i) Simple support (sliding support and roller support), ii) Hinge support or pin support, iii) Fixed support
7) Types of beams  i) Simply supported beam, ii) Cantilever beam, iii) Fixed beam, iv) Continuous beam, v) Overhanging beam
8) Types of loading  i) Concentrated load or Point load, ii) Uniformly Distributed Load (U. D. L.) or Rectangular Loading, iii) Uniformly Varying Load (U. V. L.) or Triangular Loading.
Intro to Fluid Mechanics for Engineering Students Part 3
Continuity, Navier Stokes, Vorticity, Stream Function, Velocity Potential, Buckingham Pi Theorem and More
Created by Cherish Qualls, PhD  Professional Engineer and University Professor
Students: 664, Price: $69.99
Students: 664, Price: Paid
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 fullyworked examples to help you learn the challenging subject of Fluid Mechanics.
This course is the third in a 3course series designed to teach the fundamentals of Fluid Mechanics. In this section, we continue learning about fluid in motion and we will introduce the concept of dimensional analysis.
Here's what we'll cover
This course covers the following topics that are generally found in a universitylevel Intro to Fluids class:

Lagrangian and Eulerian Descriptions

Velocity and Acceleration Fields

Continuity Equation

Navier Stokes

Stream Function

Vorticity and Irrotationality

Velocity Potential

Dimensional Analysis & Buckingham Pi Theorem

Intro to Laminar and Turbulent Flow

And more!
Here's what you get when you enroll

Lifetime access to the course

Easy to follow, ondemand lecture videos

Plenty of fullyworked 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 hourlong lecture videos? I didn't think so.
To eliminate that frustration my lectures are broken up into shorter segments, typically 1215 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.
Flight Mechanics – From Theory to Certification of Aircraft
Modeling theory, aircraft 6DOF simulation, flight dynamics and aircraft certification
Created by Bruno Pacheco  Product Development Engineer
Students: 648, Price: $24.99
Students: 648, Price: Paid
This course starts with a theoretical overview of 3D equations of motion applied for aircraft simulations. In this initial topic, a classical mechanics overview with a review of aerodynamics will provide the theoretical base for the second section. The student will understand how to interpret the aerodynamic derivatives and a discussion on typical values for each aerodynamic derivative will be done.
In the second section, we will cover Matlab & Simulink Intro and start the modeling of a generic complete aircraft. This final model will be used for trim analysis, aircraft dynamic modes estimation, simulation and can also be used for control law design, flight control sizing and design and many more. You can also try to modify the aerodynamic and mass data to analyze your own aircraft designs.
Finally, in the last section, we will cover the process for Part 25 aircraft certification. If you don't know what Part 25 is, don't worry, together we will learn all aspects of current regulations. We will cover all the way from understanding the requirements and how to demonstrate compliance with them up to the flight test campaign and maneuvers used in real aircraft certification regarding flying qualities.
This course is filled with real examples and is a more handson approach for a flight mechanics engineer.
* ALL MATLAB SCRIPTS AND FILES USED IN THE LESSONS ARE PROVIDED IN THE COURSE.
Essential physics : Master classical and Newtonian mechanics
Physics : Newton's laws , linear circular rotational & harmonic motions , friction , collision , work energy , momentum
Created by WR Training  Petroleum Petrochemical & Chemical Engineering
Students: 495, Price: $89.99
Students: 495, Price: Paid
Dear student,
Welcome to this online physics course on classical mechanics.
This 7h course will introduce you to the main and fundamentals topics in classical mechanics using hands on demos and playing english crystal clear explanation.
"Master classical and Newtonian mechanics" is organized into 9 sections :

SYSTEMS OF UNITS, COORDINATE SYSTEMS AND VECTORS

ONE DIMENSIONAL MOTION

TWO DIMENSIONAL MOTION AND CIRCULAR MOTION

NEWTON'S LAWS

FRICTIONS IN LINEAR AND CIRCULAR MOTIONS

WORK AND ENERGY

LINEAR MOMENTUM AND COLLISION

ROTATIONAL MOTION

SIMPLE HARMONIC MOTION
These are the 9 chapters at the beginning of every physics class.
And here’s what you get inside of every lesson :
Videos : Watch over my shoulder as I solve problems for every single physics issue you’ll encounter in class. We start from the beginning, I explain the problem setup and why I set it up that way, the steps I take and why I take them, how to work through the fuzzy middle parts, and how to simplify the answer when you get it.
Notes (downloadable pdf files) : The notes section of each lesson is where you find the most important things to remember. It’s like Cliff Notes for books, but for physics. Everything you need to know to pass your class and nothing you don’t.
Solved problems (downloadable pdf file) : When you think you’ve got a good grasp on a topic within a course, you can test your knowledge by taking one of our solved problems. If you pass, wonderful. If not, you can review the videos and notes again or ask me for help in the Q&A section.
So what do you say ? ready to dive in ?
Sign up today and get :
1. immediate lifetime access to over 7 hours of high quality video content
2. downloadable solvedproblem files
and
3. oneonone instructor support
So with no further ado, go ahead, click the enroll button and I will see you in the first section !
Cheers,
WR Training
Spread the wings of your knowledge
Basic Concepts of Mechanics of Materials for Machine Design
Learn the Foundation concepts of Strength of materials with Math derivations and theory for mechanical engineering
Created by Mufaddal Rasheed  Mechanical engineer , Inventor and Quora Top Writer
Students: 494, Price: $19.99
Students: 494, Price: Paid
Mechanics of Materials is the primary course for mechanical engineering and is used in the design of structures and machines.
A thorough understanding of the foundational concepts of the subject is important to for mechanical design whether it be designing a single structure which has to take loads or whether it is designing an elaborate Transmission systems which is undergoing dynamic loading conditions. Mechanics of materials concepts are cornerstone of any type of mechanical design .
In this course we will be covering the following concepts :

Introduction to Machine design  What is nature of machine design ? What does it include ? What is the engineering design process?

Importance of analysis of strength and difference between strength and stress

Essential basics of engineering statics  Method of statics, Free body diagrams, Force equilibrium , types of joints

primary types of loading Normal and shear

What is Bearing stress

Explanation of Stress and strain relations with Tensile test and its inferences along with definitions of tensile strength , yield strength .

Hookes law

Shear Stress strain relations and Shear stress in Shafts undergoing action of torque Torsion.

What is Poissons' Ratio

Analysis of Axially loaded member and what is stress concentration

Analysis of Stress in Oblique plane for axially loaded member

What is Pure bending ? Derivation of governing equations .

What is Area moment of Inertia

Analysis of Beams and deriving shear force and Bending moment diagrams

Two Plane bending in shafts

Stress concentration in Bending

Analysis of Shaft in torsion and derivation of Governing equations

Solid vs Hollow shafts

Stress concentration in Shafts

Multi axial Loading , Dilatation and Bulk Modulus

State of Stress and Stress transformations

Analysis of Thin walled pressure vessels

What is Principal stress and derivation of Mohrs' Circle

Comparison of plane of Principal stress and Maximum Shear
The course covers the Theoretical basics required to design standard elements in structures and machines.
Aim of the course is to build a strong well rooted understanding of the concepts rather than just mere application of formulae.
A good engineer knows the underlying assumptions of each formula they use in application and hence knowing the mathematical back ground is very important for effective design.
Basics of Civil Engineering Mechanics – Beginner Course
A Basic Course for Civil Engineering Students to get Deeper Insights about Force, Vectors, Momemtum & Numericals
Created by RAHUL NK  CIVIL ENGINEER / STRUCTURAL ENGINEER / ACADEMICIAN
Students: 475, Price: Free
Students: 475, Price: Free
Students can able to learn the basic civil engineering concepts like
1. SCOPE OF CIVIL ENGINEERING: Housing, Roads, Bridges and Dams, Basic Introduction of Building Materials – cement, bricks/blocks, aggregate(s), timber, steel, composites, Components of a structure  Substructure, Super structure and Finishes.
2. COPLANAR CONCURRENT FORCES:Principle of statics, Particle, continuum, Rigid body, Force and its characteristics, Types of forces and classification of force systems, Principle of physical independence of forces, Principle of transmissible of forces, Principle of superposition of forces, Composition of forces  Definition of Resultant; Composition of coplanar concurrent force system, Parallelogram law of forces, Resolution of forces.
3. MOMENT OF FORCE: Moment of a force, Couple, Characteristics of couples, Varignon’s theorem of moments, Composition of coplanar  nonconcurrent force system, Equivalent force  couple system, Numerical problems on composition of coplanar nonconcurrent force systems.
4. EQUILIBRIUM OF FORCES: Equilibrium of concurrent, parallel and general forces in a plane, equilibrium of three forces in a plane, Definition of equilibrium, Lami's theorem; Resultant and equilibrium of concurrent and parallel forces in space, Numerical problems on equilibrium of coplanar – concurrent and nonconcurrent force systems.
5. COPLANAR NONCONCURRENT FORCES: Introduction to beams, Types of loads and supports, Support reactions, statically determinate beams with point load (normal and inclined) and uniformly distributed/varying loads, Numerical problems.
6. FRICTION: Frictionstatic friction, Laws of friction, Limiting friction, Angle of friction, angle of repose, Impending motion on horizontal and inclined planes, Ladder and block friction, Numerical problems.
7. CENTROID: Centroid of line and area, Centroid of regular figures, Locating the centroid of triangle, semicircle, quadrant of a circle and sector of a circle using method of integration, Centroid of composite sections; Numerical problems.
8. MOMENT OF INERTIA: Second moment of area, polar moment of inertia, Radius of gyration, Perpendicular and Parallel axis theorems, Moment of Inertia of rectangular, circular and triangular areas from method of integration, composite sections, Numerical problems.
Introduction to Orbital Mechanics for Engineering Students
All The Basics of Elliptical Orbits
Created by Cherish Qualls, PhD  Professional Engineer and University Professor
Students: 354, Price: $99.99
Students: 354, Price: Paid
This course covers material typically found in the first half of a universitylevel 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 rootfinding method to Kepler's equation and much more!
Topics we'll cover

Relative 2body equation

Angular momentum

Polar coordinates and energy

Trajectory equation

Elliptical orbits

Kepler's laws

Kepler's equation

Newton's root finding method

Orbital elements

Conversion from position and velocity vectors to orbital elements

Conversion from orbital elements to position and velocity vectors
Math Intuition for Quantum Mechanics & Quantum Field Theory
Quantum Mechanics and Quantum Field Theory
Created by Emanuele Pesaresi  PhD in Mechanics and Advanced Engineering Sciences
Students: 286, Price: $89.99
Students: 286, Price: Paid
This course aims to mathematically motivate both Quantum Mechanics (QM) and Quantum field Theory (QFT). The first part is devoted to the most important concepts and equations of QM, whereas the second part deals with QFT.
Due to the conceptual and mathematical difficulty of these subjects, some prerequisites to this course are unavoidably required. The student should be familiar with:
1) the Fourier Series and Transform;
2) Multivariable Calculus;
3) Probability theory and random variables;
4) Classical Physics;
5) Complex Calculus (especially residues and calculation of integrals on a contour), although this is necessary only for some parts of the course devoted to QFT;
6) Special Relativity and tensors for QFT.
Note 1: the first few prerequisites might be enough if you are interested only in the first part of the course, which is related to QM (consider that this course has tens of hours' worth of material, you might be interested only in some parts);
Note 2: I'm more than willing to reply if you have doubts/need clarifications, or why not have any recommendations to improve the quality of the course.
Note 3: I'll still keep editing the videos (for example by adding notes) to make the videolectures as clear as possible.
The references for the part on QFT are the following:
 Quantum Field Theory, M.Srednicki
 Quantum Field Theory, Itzykson & Zuber
 QFT by Mandl & Shaw
 QFT in a nutshell, A.Zee
 QFT by Ryder, Ramand
 The Quantum Theory of Fields, S.Weinberg
 Gauge Theories in Particle Physics, Aitchison & Z.Hey
Mechanics 1 Concepts: Advanced Level Mathematics
Complete indepth coverage of mechanics 1 concepts which are examined at Advanced Level Mathematics
Created by MUNRO KAGWE  Physics and Mechanics 1&2 Tutor
Students: 117, Price: $89.99
Students: 117, Price: Paid
Mechanics 1 is part of Advanced Level Mathematics. It has four topics: 1  Kinematics of motion in a Straight Line, 2  Forces and Equilibrium, 3  Newton's Laws of Motion and 4  Work Energy & Power. In this course, I have put emphasis on the understanding of main concepts in mechanics 1 which, in my opinion, poses greatest difficulties to students as they prepare for their Advanced Level Mathematics certification. Each topic has several videos where I will teach you a specific concept in mechanics 1. I start each video by outlining clearly the concept you will learn by the end of the video. At the end of each video, you will download the Video Deconstruction Document (VDD) which will help you to understand what I have just taught in the video.
To understand mechanics 1 concepts you do not necessarily need to have studied physics although this will give you an edge over other students. All I need from you is to identify the mechanics 1 concept that I will be teaching you and then do plenty of practice on them. So in my video I may repeatedly mention a concept in mechanics 1. This is intentional as it is meant to ensure that you understand the concept.