Machine Dynamics with MATLAB

Course Feature
  • Cost
    Free
  • Provider
    Edx
  • Certificate
    Paid Certification
  • Language
    English
  • Start Date
    Self paced
  • Learners
    No Information
  • Duration
    10.00
  • Instructor
    /
Next Course
4.5
1,300 Ratings
This course provides an overview of machine dynamics, using MATLAB to model a vehicle. Students will gain an understanding of the equations of motion and how to apply them to analyze the motion of a vehicle. They will also learn how to simulate the motion of a vehicle and interpret the results.
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Course Overview

❗The content presented here is sourced directly from Edx platform. For comprehensive course details, including enrollment information, simply click on the 'Go to class' link on our website.

Updated in [March 06th, 2023]


This course will introduce you to a broad range of methodologies used in the field of machine dynamics. You will learn how to model a vehicle using the fundamentals of mechanics. You will get a deep understanding of the equations of motion and how to solve them using powerful MathWorks tools. Eventually, you will gain the ability to analyze and interpret the computational results in order to optimize your design.

To get the most out of your time the course is subdivided into five weeks, each consists of lectures, tutorials and exercises. During lectures, you will get all the theoretical background of machine dynamics. Tutorials will teach you the basics of MathWorks products and exercises will merge your theoretical knowledge with the practical use of the software into an exciting application.

You will learn how to model a vehicle by a one and a two degree of freedom system. These systems could be base excited, force excited or not excited, they could be damped or undamped and their mathematical representation could be solved analytically, by state space representation or by solving the differential equation itself.

Therefore, if you ever wondered how to design a vehicle suspension using MathWorks tools, we highly recommend you attend to this course.

(Please note that we obtained the following content based on information that users may want to know, such as skills, applicable scenarios, future development, etc., combined with AI tools, and have been manually reviewed)
Learners can learn from this course in three main areas:

1. Modeling: Learners will gain an understanding of the fundamentals of mechanics and how to model a vehicle using these principles. They will also learn how to use MathWorks tools to solve equations of motion and analyze the results.

2. Theory: Learners will gain a deep understanding of the theoretical background of machine dynamics, including the basics of MathWorks products.

3. Application: Learners will be able to apply their theoretical knowledge to practical applications, such as designing a vehicle suspension using MathWorks tools. They will also learn how to interpret the computational results in order to optimize their design.

[Applications]
Upon completion of this course, participants will be able to apply the knowledge gained to design a vehicle suspension using MathWorks tools. They will be able to model a vehicle by a one and two degree of freedom system, and solve the mathematical representation analytically, by state space representation or by solving the differential equation itself. Participants will also be able to analyze and interpret the computational results in order to optimize their design.

[Career Paths]
1. Automotive Engineer: Automotive engineers are responsible for designing, developing, and testing vehicles and their components. They use MATLAB to develop and analyze models of vehicle dynamics, suspension systems, and other components. As the automotive industry continues to evolve, automotive engineers must stay up to date with the latest technologies and trends in order to create efficient and reliable vehicles.

2. Robotics Engineer: Robotics engineers use MATLAB to develop and analyze models of robotic systems. They use the software to design and simulate robotic systems, as well as to analyze the performance of the robots. As the robotics industry continues to grow, robotics engineers must stay up to date with the latest technologies and trends in order to create efficient and reliable robots.

3. Control Systems Engineer: Control systems engineers use MATLAB to develop and analyze models of control systems. They use the software to design and simulate control systems, as well as to analyze the performance of the systems. As the control systems industry continues to evolve, control systems engineers must stay up to date with the latest technologies and trends in order to create efficient and reliable control systems.

4. Aerospace Engineer: Aerospace engineers use MATLAB to develop and analyze models of aircraft and spacecraft. They use the software to design and simulate aircraft and spacecraft, as well as to analyze the performance of the vehicles. As the aerospace industry continues to evolve, aerospace engineers must stay up to date with the latest technologies and trends in order to create efficient and reliable aircraft and spacecraft.

[Education Paths]
Recommended Degree Paths:
1. Mechanical Engineering: Mechanical engineering is a field of engineering that focuses on the design, construction, and operation of machines and mechanical systems. It is a broad field that covers a wide range of topics, including thermodynamics, fluid mechanics, materials science, and robotics. Mechanical engineering is a rapidly growing field, with new technologies and applications being developed every day.

2. Automotive Engineering: Automotive engineering is a field of engineering that focuses on the design, development, and production of automobiles. It is a highly specialized field that requires a deep understanding of mechanical, electrical, and computer engineering. Automotive engineers are responsible for the design, development, and testing of new vehicles, as well as the maintenance and repair of existing vehicles.

3. Robotics Engineering: Robotics engineering is a field of engineering that focuses on the design, construction, and operation of robots. It is a rapidly growing field, with new technologies and applications being developed every day. Robotics engineers are responsible for the design, development, and testing of robots, as well as the maintenance and repair of existing robots.

4. Computer Science: Computer science is a field of study that focuses on the design, development, and implementation of computer systems and software. It is a rapidly growing field, with new technologies and applications being developed every day. Computer scientists are responsible for the design, development, and testing of computer systems and software, as well as the maintenance and repair of existing systems.

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