Engineering Mechanics: Dynamics

Engineering Mechanics: Dynamics, available at $19.99, with 52 lectures, 7 quizzes, and has 101 subscribers.

You will learn about The linear and angular motions of rigid bodies. The motion of projectiles. The linear and angular momentum of rigid bodies. The work, energy, and power. This course is ideal for individuals who are Science and Engineering students at diploma, graduate and post-graduate levels. or Working professionals who are curious and wish to refresh their knowledge for advanced courses. It is particularly useful for Science and Engineering students at diploma, graduate and post-graduate levels. or Working professionals who are curious and wish to refresh their knowledge for advanced courses.

Enroll now: Engineering Mechanics: Dynamics

Summary

Title: Engineering Mechanics: Dynamics

Price: $19.99

Number of Lectures: 52

Number of Quizzes: 7

Number of Published Lectures: 51

Number of Published Quizzes: 7

Number of Curriculum Items: 59

Number of Published Curriculum Objects: 58

Original Price: $22.99

Quality Status: approved

Status: Live

What You Will Learn

The linear and angular motions of rigid bodies.
The motion of projectiles.
The linear and angular momentum of rigid bodies.
The work, energy, and power.

Who Should Attend

Science and Engineering students at diploma, graduate and post-graduate levels.
Working professionals who are curious and wish to refresh their knowledge for advanced courses.

Target Audiences

Science and Engineering students at diploma, graduate and post-graduate levels.
Working professionals who are curious and wish to refresh their knowledge for advanced courses.

What is Dynamics in Engineering Mechanics?

Dynamics is a branch of Engineering Mechanics that deals with the motion of objects. If the motion of objects is analyzed without considering the forces, then the study is called kinematics, and if the forces are considered, then it is called kinetics.

How will this course help me in my studies and career?

Engineering Mechanics is one of the core subjects in the field of engineering and technology. This subject improves your analytical skills and thinking power. That is why Engineering Mechanics is considered a core subject for engineering students at all universities worldwide.

This course will teach you an analysis of the motion of the objects, such as displacement, velocity, acceleration, and other parameters. At the end of the course, you will be able to draw out the important information from the descriptive real-world problems and perform mathematical modeling and calculation to obtain the solution. This is what you call a problem-solving ability. Also, you will be able to apply the concepts in other areas of engineering applications. In other words, you will be able to utilize the skills and knowledge gained from this course in advanced-level subjects like Strength of Materials, Machine Design, Design of Structures, and so on. Even after the successful completion of your Engineering Degree, this subject will be the base for your day-to-day engineering activities.

What will you learn from this course?

In this course, you will learn

Basic Concepts of Dynamics in Engineering Mechanics
Kinematics of Rigid Bodies
Kinetics of Rigid Bodies
Impulse and Momentum
Work, Power, energy, and more…

What is the benefit of taking this course?

My major objective is to teach you the concepts so that you will be able to easily understand them and have enough confidence to solve any problem related to Mechanics. So, I put myself in your shoes and carefully designed and presented this course. I am sure that you will be able to grasp the concepts in less time compared to other courses. I always strive to improve the quality of the course by getting feedback from students like you.

This course will help you understand various subjects like Fluid Mechanics, Dynamics of Machinery, Aircraft Structures, Structural Analysis, and so on.

How to gain maximum benefit from the course?

My best suggestion is to …

sit in a calm and quiet place with a notebook, pen, and scientific calculator and start learning the modules according to your convenience.
note down the important points and solve the numerical examples parallel to the lectures.
complete the quizzes and assignments/exercises provided in the course.
try to answer your university/institute questions related to the concepts you learned here to get confidence.

Should I require any books for the course?

No. You don’t need any books. The course has been designed by referring to the following books (Author names are in alphabetical order), and you may also refer to these books:

Vector Mechanics for Engineers – Beer and Johnston
Engineering Mechanics: Dynamics – Hibbeler
Engineering Mechanics – Meriam and Kraige

What support will you get?

You will get answers to your questions, doubts, and clarifications within 24 hours of submitting your queries, additional resources within 48 hours, and regular updates.

Please watch the Free Preview videos, and if you like the approach, you can ENROLL and start learning.

I hope to see you on the course.

Thank You!

Course Curriculum

Chapter 1: Welcome to Engineering Mechanics-Dynamics

Lecture 1: Welcome to the Course – Engineering Mechanics: Dynamics

Chapter 2: Introduction to Engineering Mechanics-Dynamics

Lecture 1: Introduction to the Course – Engineering Mechanics: Dynamics

Chapter 3: Rectilinear Motion

Lecture 1: Types of Motion

Lecture 2: Speed, Velocity, and Acceleration

Lecture 3: Equations of Rectilinear Motion

Lecture 4: Numerical Example of Linear Motion-1

Lecture 5: Numerical Example of Linear Motion-2

Lecture 6: Numerical Example-Max. Velocity of a Particle

Lecture 7: Numerical Example of Linear Motion-3

Lecture 8: Numerical Example of Linear Motion-4

Lecture 9: Numerical Example of Linear Motion-5

Lecture 10: Numerical Example of Linear Motion-6

Lecture 11: Numerical Example of Linear Motion-7

Lecture 12: Numerical Example of Linear Motion-8

Lecture 13: Numerical Example of Linear Motion-9

Lecture 14: Numerical Example of Linear Motion-10

Lecture 15: Numerical Example of Linear Motion-11

Lecture 16: Numerical Example of Linear Motion-12

Chapter 4: Curvilinear Motion

Lecture 1: Types of Motions

Lecture 2: Equations of Curvilinear Motion

Lecture 3: Numerical Example-Motion along a curved path

Lecture 4: Numerical Example of Angular Motion-1

Lecture 5: Numerical Example of Angular Motion-2

Lecture 6: Numerical Example of Angular Motion-3

Lecture 7: Numerical Example – Velocity Components

Lecture 8: Numerical Example – Motion of a Particle

Lecture 9: Numerical Example – Motion of a Particle

Chapter 5: Projectiles

Lecture 1: Introduction to Projectiles – Important Definitions

Lecture 2: Numerical Example of Projectile Motion-1

Lecture 3: Numerical Example of Projectile Motion-2

Lecture 4: Numerical Example of Projectile Motion-7

Lecture 5: Numerical Example of Projectile Motion-8

Lecture 6: Numerical Example – Angle of Projection

Chapter 6: Laws of Motion

Lecture 1: Introduction to Laws of Motion – Important Definitions

Lecture 2: Numerical Example of Laws of Motion-1

Lecture 3: Numerical Example of Laws of Motion-2

Chapter 7: Collision of Elastic Bodies

Lecture 1: Introduction to Collision of Elastic Bodies – Definitions and Types of Collision

Lecture 2: Numerical Example of Momentum

Lecture 3: Numerical Example of Collision of Elastic Bodies-2

Lecture 4: Numerical Example of Collision of Elastic Bodies-2

Lecture 5: Numerical Example of Collision of Elastic Bodies-3

Lecture 6: Numerical Example of Collision of Elastic Bodies-4

Lecture 7: Numerical Example of Trains Collision-1

Lecture 8: Numerical Example of Railway Wagons Collision-1

Chapter 8: Work, Power and Energy

Lecture 1: Introduction to Work, Power and Energy

Lecture 2: Numerical Example of Work, Power and Energy-1

Lecture 3: Numerical Example of Potential Energy

Lecture 4: Numerical Example of Kinetic Energy of Ball

Lecture 5: Numerical Example of Kinetic Energy of Hollow Sphere

Lecture 6: Numerical Example – Resisting Torque

Lecture 7: Numerical Example of KE of the Wheel

Instructors

Baskar P
Professor and Ed-Tech Consultant

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