Would you like to familiarize yourself with, and strengthen your knowledge about motion analysis of mechanical systems? Then, This Course Is For You, Welcome on Board!
Mechanical Vibration is one the most important and fundamental courses of mechanical engineering. During this course, you will learn how to analyze the motion of different vibratory systems. You will learn the impact and importance of selecting reasonable mass, spring and damping, in order to guarantee a logical motion for a mechanical system. This course paves the way to prepare you for mechanical engineering design.
The course is therefore composed of the following chapters:
Chapter 1: Introduction and Basic Definitions
Chapter 2: Modelling of Dynamical Vibratory Systems
Chapter 3: Free Vibration of Undamped Systems
Chapter 4: Free Vibration of Damped Systems
Chapter 5: Forced Vibrations
Chapter 6: Analysis of Two-DoF Systems
In addition, it includes:
- Many Solved Examples in Each Chapter
- High Quality Pictures
- High Quality Videos
- Detailed Explanation
- You Learn By Solving Relevant Up-to-date Examples
- Summary and Review Covered at the End of Each Chapter
- Very Clear English, Any Student Can Comprehend the Topic
- You Learn How to Combine this Course with Matlab to Maximize Your Expertise. Different Examples are Solved Using Matlab.
This course is designed very carefully for the students of mechanical engineering, and people who are interested to learn what mechanical vibration is. It guides you from the first elementary step through to the expertise level in this field.
I am sure after passing this course you feel very confident not only in mechanical vibrations, but also in dynamics and differential equations in Matlab.
This course can even be used by the students who want to deepen their knowledge in Dynamics, and evaluate how they can combine it with Matlab. You can even combine this course with what you learn in control engineering to investigate how to modulate the motion of mechanical systems.