Udemy – Dynamics 2: Mathematical modeling & analysis of rigid bodies 2023-3

Udemy – Dynamics 2: Mathematical modeling & analysis of rigid bodies 2023-3 Downloadly IRSpace

Apr 17, 2025 - 19:16 Updated: Apr 21, 2025 - 09:19

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Udemy – Dynamics 2: Mathematical modeling & analysis of rigid bodies 2023-3

Dynamics 2 course: Mathematical modeling & analysis of rigid bodies. Dynamics course 2: modeling and mathematical analysis of rigid bodies. How do you get a mathematical model for a system like a rotating wind turbine or a rotating gyroscope that you can later use in other fields like control systems? Do you want to know how to analyze the motion of a satellite using angular momentum and how to use work and energy to deal with complex objects in a very easy way? Do you want to learn how to take a simple vibrating system and describe its motion using Newton’s and Lagrange’s laws? I will teach you all this and much more here in the course: Engineering Mechanics: Dynamics Part 2 – Mathematical Modeling and Analysis of Rigid Bodies. My name is Mark and in this course I will ensure that you will be fully equipped for the mathematical modeling and analysis of rigid bodies. Knowing how to model rigid bodies is a must in engineering. I have 3 control systems courses where I teach advanced controllers for self-driving cars and drones. The basis of making a good controller is to have a good mathematical model. In those courses, when I build those models, I rely heavily on the topics taught here, such as the inertia matrix (inertia tensor) and rotating frames. For rigid bodies in 2D and 3D, we will cover kinematics, dynamics, work, energy, Lagrangian, impact, and momentum. You’ll have a lot of trouble solving problems, but you’ll also understand the intuition and reasoning behind the concepts.

What you will learn in the course Dynamics 2: Mathematical modeling & analysis of rigid bodies

How to analyze the motion of rigid bodies using kinematics (two-dimensional and three-dimensional)
How to analyze the movement of rigid bodies using dynamics (two-dimensional and three-dimensional)
How to mathematically model rigid body systems
How to use the principles of work and energy to simplify working with complex systems
How to use the principles of impulse and momentum to simplify working with complex systems
How to apply Lagrangian mechanics to systems that are subject to conservative forces

This course is suitable for people who

Engineering students in control systems and mechanical, civil, aerospace, maritime engineering
Professional engineers in control and mechanical systems, civil, aerospace, marine engineering

مشخصات دوره Dynamics 2: Mathematical Modeling & Analysis of Rigid Bodies

Publisher: Udemy
Instructor: Mark Misin Engineering Ltd
Training level: beginner to advanced
Training duration: 14 hours and 52 minutes
Number of courses: 182

Course headings

Dynamics 2 course prerequisites: Mathematical modeling & analysis of rigid bodies

Functions, Derivatives and Integrals from Calculus
The concepts from Statics such as: vectors, forces, moments, equilibrium and friction.
The concepts from particle Dynamics such as: kinematics, forces & moments, work, energy, impulse and momentum

Udemy – Dynamics 2: Mathematical modeling & analysis of rigid bodies 2023-3