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The dynamics of engineering is a broad topic and field since it deals with various mechanical systems. Learning how the dynamics of engineering function will help you understand the different engineering concepts.

This [course_title] will help you learn about kinematics, the force-momentum formulation for systems, and various work-energy concepts. You will be assisted to evaluate free and forced vibration of linear multi-degree of freedom models in this course.


This course does not involve any written exams. Students need to answer 5 assignment questions to complete the course, the answers will be in the form of written work in pdf or word. Students can write the answers in their own time. Each answer needs to be 200 words (1 Page). Once the answers are submitted, the tutor will check and assess the work.


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Course Credit: MIT


Course Curriculum

Module: 01
History of Dynamics; Motion in Moving Reference Frames 00:54:00
Newton’s Laws and Describing the Kinematics of Particles 01:11:00
Motion of Center of Mass; Acceleration in Rotating Ref. Frames 01:15:00
Movement of a Particle in Circular Motion w/ Polar Coordinates 00:56:00
Impulse, Torque, and Angular Momentum for a System of Particles 01:17:00
Torque and the Time Rate of Change of Angular Momentum 01:06:00
Module: 02
Degrees of Freedom, Free Body Diagrams, and Fictitious Forces 01:12:00
Fictitious Forces and Rotating Mass 01:12:00
Rotating Imbalance 01:14:00
Equations of Motion, Torque, Angular Momentum of Rigid Bodies 01:09:00
Mass Moment of Inertia of Rigid Bodies 01:10:00
Module: 03
Problem Solving Methods for Rotating Rigid Bodies 01:11:00
Four Classes of Problems With Rotational Motion 01:04:00
More Complex Rotational Problems and Their Equations of Motion 01:14:00
Introduction to Lagrange With Examples 01:21:00
Kinematic Approach to Finding Generalized Forces 01:13:00
Module: 04
Practice Finding EOM Using Lagrange Equations 01:18:00
Quiz Review From Optional Problem Set 8 00:37:00
Introduction to Mechanical Vibration 01:15:00
Linear System Modeling a Single Degree of Freedom Oscillator 01:16:00
Vibration Isolation 01:20:00
Module: 05
Vibration by Mode Superposition 01:17:00
Modal Analysis: Orthogonality, Mass Stiffness, Damping Matrix 01:22:00
Modal Analysis: Response to IC’s and to Harmonic Forces 01:18:00
Response of 2-DOF Systems by the Use of Transfer Functions 01:21:00
Vibration of Continuous Structures: Strings, Beams, Rods, etc. 01:12:00
Submit Your Assignment 00:00:00
Certification 00:00:00

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