About this Course

30,779 recent views

Learner Career Outcomes

50%

got a tangible career benefit from this course
Shareable Certificate
Earn a Certificate upon completion
100% online
Start instantly and learn at your own schedule.
Flexible deadlines
Reset deadlines in accordance to your schedule.
Approx. 23 hours to complete
English

Learner Career Outcomes

50%

got a tangible career benefit from this course
Shareable Certificate
Earn a Certificate upon completion
100% online
Start instantly and learn at your own schedule.
Flexible deadlines
Reset deadlines in accordance to your schedule.
Approx. 23 hours to complete
English

Offered by

Placeholder

Georgia Institute of Technology

Syllabus - What you will learn from this course

Content RatingThumbs Up96%(2,549 ratings)Info
Week
1

Week 1

5 hours to complete

Course Introduction; Particle Kinematics; Particle Kinetics – Newton’s Laws and Euler’s Laws; Motion of Particles and Mass Centers of Bodies

5 hours to complete
8 videos (Total 74 min), 17 readings, 1 quiz
8 videos
Module 2: Particle Kinematics; Rectilinear Motion7m
Module 3: Rectilinear Motion Example8m
Module 4: Rectangular Cartesian Coordinate System, Cylindrical Coordinate System, Tangential and Normal Coordinate System : Position and Velocity6m
Module 5: Tangential and Normal Coordinate System: Acceleration; Curvilinear Motion Example using Tangential and Normal Coordinates14m
Module 6: Define Kinetics; Newton’s 2nd Law; Euler’s 1st Law; Locate Mass Center of Composite Body9m
Module 7: Solve for the Motion of the Mass Center of Bodies using Newton-Euler Equations I9m
Module 8: Solve for the Motion of the Mass Center of Bodies using Newton-Euler Equations II13m
17 readings
Syllabus10m
Consent Form10m
Pdf Version of Module 1: Course Introduction Lecture10m
Get More from Georgia Tech10m
Pdf Version of Module 2: Particle Kinematics; Rectilinear Motion Lecture10m
Pdf Version of Module 3: Rectilinear Motion Example Lecture10m
Worksheet Solutions: Rectilinear Motion Example10m
Pdf Version of Module 4: Rectangular Cartesian Coordinate System, Cylindrical Coordinate System, Tangential and Normal Coordinate System : Position and Velocity Lecture10m
Worksheet Solutions: Tangential and Normal Coordinate System: Acceleration; Curvilinear Motion Example using Tangential and Normal Coordinates10m
Pdf Version of Module 5: Tangential and Normal Coordinate System: Acceleration; Curvilinear Motion Example using Tangential and Normal Coordinates Lecture10m
Pdf Version of Module 6: Define Kinetics; Newton’s 2nd Law; Euler’s 1st Law; Locate Mass Center of Composite Body Lecture10m
Worksheet Solutions: Define Kinetics; Newton’s 2nd Law; Euler’s 1st Law; Locate Mass Center of Composite Body10m
Pdf Version of Module 7: Solve for the Motion of the Mass Center of Bodies using Newton-Euler Equations I Lecture10m
Pdf Version of Module 8: Solve for the Motion of the Mass Center of Bodies using Newton-Euler Equations II Lecture10m
Worksheet Solutions: Solve for the Motion of the Mass Center of Bodies using Newton-Euler Equations II10m
Practice Problems10m
Solution of Quiz 110m
1 practice exercise
Course Introduction; Particle Kinematics; Particle Kinetics – Newton’s Laws and Euler’s Laws; Motion of Particles and Mass Centers of Bodies30m
Week
2

Week 2

2 hours to complete

Work-Energy Principle for Particles/Systems of Particles

2 hours to complete
5 videos (Total 40 min), 8 readings, 1 quiz
5 videos
Module 10: Work Done by Gravity; Work Done by Friction; Solve Work-Energy Problems for Particles/System of Particles8m
Module 11: Impulse-Momentum Relationship; Define Impact6m
Module 12: Define Coefficient of Restitution; Solve an Impact Problem11m
Module 13: Define Angular Momentum; Euler’s 2nd Law (The Moment Equation)7m
8 readings
Pdf Version of Module 9: Work and Kinetic Energy Principle for Particles/System of Particles; Work of a Linear Spring Lecture10m
Pdf Version of Module 10: Work Done by Gravity; Work Done by Friction; Solve Work-Energy Problems for Particles/System of Particles Lecture10m
Pdf Version of Module 11: Impulse-Momentum Relationship; Define Impact Lecture10m
Pdf Version of Module 12: Define Coefficient of Restitution; Solve an Impact Problem Lecture10m
Pdf Version of Module 13: Define Angular Momentum; Euler’s 2nd Law (The Moment Equation) Lecture10m
Earn a Georgia Tech Badge/Certificate/CEUs10m
Practice Problems10m
Solution of Quiz 210m
1 practice exercise
Work-Energy Principle for Particles/Systems of Particles; Impulse and Momentum; Impact; Conservation of Momentum; Euler’s 2nd Law – Moment of Momentum30m
Week
3

Week 3

3 hours to complete

Planar (2D) Rigid Body Kinematics I

3 hours to complete
6 videos (Total 58 min), 11 readings, 1 quiz
6 videos
Module 15: Solve a Relative Velocity problem9m
Module 16: Define and Locate the Instantaneous Center of Zero Velocity (IC)10m
Module 17: Solve an Instantaneous Center of Zero Velocity (IC) Problem9m
Module 18: Define Angular Acceleration; Derive the Relative Acceleration Equation7m
Module 19: Solve a Relative Acceleration Problem9m
11 readings
Pdf Version of Module 14: Define Rigid Body Kinematics; Identify three types of Planar Rigid Body Motion; Derive Relative Velocity Equation Lecture10m
Pdf Version of Module 15: Solve a Relative Velocity problem Lecture10m
Worksheet Solutions: Solve a Relative Velocity Problem10m
Pdf Version of Module 16: Define and Locate the Instantaneous Center of Zero Velocity (IC) Lecture10m
Pdf Version of Module 17: Solve an Instantaneous Center of Zero Velocity (IC) Problem Lecture10m
Worksheet Solutions: Solve an Instantaneous Center of Zero Velocity (IC) Problem10m
Pdf Version of Module 18: Define Angular Acceleration; Derive the Relative Acceleration Equation Lecture10m
Pdf Version of Module 19: Solve a Relative Acceleration Problem Lecture10m
Worksheet Solutions: Solve a Relative Acceleration Problem10m
Practice Problems10m
Solution of Quiz 310m
1 practice exercise
Planar (2D) Rigid Body Kinematics: Relative Velocity Equation; Rotation about a Fixed Axis; Instantaneous Center of Zero Velocity; Relative Acceleration Equation30m
Week
4

Week 4

4 hours to complete

Planar (2D) Rigid Body Kinematics II

4 hours to complete
8 videos (Total 73 min), 12 readings, 1 quiz
8 videos
Module 21: Acceleration of a Wheel rolling on a Fixed Plane Curve8m
Module 22: Solve a Rolling Wheel Problem4m
Module 23: Explain the Velocity of the Same Point Relative to Two Different Reference Frames or Bodies; Derive the Derivative Formula11m
Module 24: Derive the Equation for the Velocity of the Same Point Relative to Two Different Reference Frames or Bodies in Planar Motion7m
Module 25: Solve a Problem for the Velocity of the Same Point Relative to Two Different Frames or Bodies in Planar Motion10m
Module 26: Derive the Equation for the Acceleration of the Same Point Relative to Two Different Reference Frames or Bodies in Planar Motion10m
Module 27: Solve for the Acceleration of the Same Point Relative to Two Different Reference Frames or Bodies in Planar Motion12m
12 readings
Pdf Version of Module 20: Acceleration of a Wheel Rolling on a Fixed Straight Surface Lecture10m
Pdf Version of Module 21: Acceleration of a Wheel rolling on a Fixed Plane Curve Lecture10m
Pdf Version of Module 22: Solve a Rolling Wheel Problem Lecture10m
Pdf Version of Module 23: Explain the Velocity of the Same Point Relative to Two Different Reference Frames or Bodies; Derive the Derivative Formula Lecture10m
Pdf Version of Module 24: Derive the Equation for the Velocity of the Same Point Relative to Two Different Reference Frames or Bodies in Planar Motion Lecture10m
Pdf Version of Module 25: Solve a Problem for the Velocity of the Same Point Relative to Two Different Frames or Bodies in Planar Motion Lecture10m
Worksheet Solutions: Solve a Problem for the Velocity of the Same Point Relative to Two Different Frames or Bodies in Planar Motion10m
Pdf Version of Module 26: Derive the Equation for the Acceleration of the Same Point Relative to Two Different Reference Frames or Bodies in Planar Motion Lecture10m
Pdf Version of Module 27: Solve for the Acceleration of the Same Point Relative to Two Different Reference Frames or Bodies in Planar Motion Lecture10m
Worksheet Solutions: Solve for the Acceleration of the Same Point Relative to Two Different Reference Frames or Bodies in Planar Motion10m
Practice Problems10m
Solution of Quiz 410m
1 practice exercise
Planar (2D) Rigid Body Kinematics: Relative Velocity Equation; Rotation about a Fixed Axis; Instantaneous Center of Zero Velocity; Relative Acceleration Equation II30m

Reviews

TOP REVIEWS FROM ENGINEERING SYSTEMS IN MOTION: DYNAMICS OF PARTICLES AND BODIES IN 2D MOTION

View all reviews

Frequently Asked Questions

More questions? Visit the Learner Help Center.