This course is an introduction to the study of bodies in motion as applied to engineering systems and structures. We will study the dynamics of particle motion and bodies in rigid planar (2D) motion. This will consist of both the kinematics and kinetics of motion. Kinematics deals with the geometrical aspects of motion describing position, velocity, and acceleration, all as a function of time. Kinetics is the study of forces acting on these bodies and how it affects their motion.
oferecido por
Engenharia de Sistema em Movimento: A dinâmica de partículas e corpos em movimento 2D
Instituto de Tecnologia da GeórgiaInstituto de Tecnologia da GeórgiaInformações sobre o curso
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Certificados compartilháveis
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100% on-line
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Prazos flexíveis
Redefinir os prazos de acordo com sua programação.
Aprox. 21 horas para completar
Inglês
Legendas: Inglês
Resultados de carreira do aprendiz
50%
consegui um benefício significativo de carreira com este curso
Certificados compartilháveis
Tenha o certificado após a conclusão
100% on-line
Comece imediatamente e aprenda em seu próprio cronograma.
Prazos flexíveis
Redefinir os prazos de acordo com sua programação.
Aprox. 21 horas para completar
Inglês
Legendas: Inglês
oferecido por
Instituto de Tecnologia da GeórgiaInstituto de Tecnologia da Geórgia
The Georgia Institute of Technology is one of the nation's top research universities, distinguished by its commitment to improving the human condition through advanced science and technology.
Programa - O que você aprenderá com este curso
4 horas para concluir
Course Introduction; Particle Kinematics; Particle Kinetics – Newton’s Laws and Euler’s Laws; Motion of Particles and Mass Centers of Bodies
In this section students will learn about particle kinematics, Newton's Laws and Euler's Laws, motion of particles and mass centers of bodies.
4 horas para concluir
8 vídeos (Total 74 mín.), 17 leituras, 1 teste
8 videos
Module 2: Particle Kinematics; Rectilinear Motion7min
Module 3: Rectilinear Motion Example8min
Module 4: Rectangular Cartesian Coordinate System, Cylindrical Coordinate System, Tangential and Normal Coordinate System : Position and Velocity6min
Module 5: Tangential and Normal Coordinate System: Acceleration; Curvilinear Motion Example using Tangential and Normal Coordinates14min
Module 6: Define Kinetics; Newton’s 2nd Law; Euler’s 1st Law; Locate Mass Center of Composite Body9min
Module 7: Solve for the Motion of the Mass Center of Bodies using Newton-Euler Equations I9min
Module 8: Solve for the Motion of the Mass Center of Bodies using Newton-Euler Equations II13min
17 leituras
Syllabus10min
Consent Form10min
Pdf Version of Module 1: Course Introduction Lecture10min
Get More from Georgia Tech10min
Pdf Version of Module 2: Particle Kinematics; Rectilinear Motion Lecture10min
Pdf Version of Module 3: Rectilinear Motion Example Lecture10min
Worksheet Solutions: Rectilinear Motion Example10min
Pdf Version of Module 4: Rectangular Cartesian Coordinate System, Cylindrical Coordinate System, Tangential and Normal Coordinate System : Position and Velocity Lecture10min
Worksheet Solutions: Tangential and Normal Coordinate System: Acceleration; Curvilinear Motion Example using Tangential and Normal Coordinates10min
Pdf Version of Module 5: Tangential and Normal Coordinate System: Acceleration; Curvilinear Motion Example using Tangential and Normal Coordinates Lecture10min
Pdf Version of Module 6: Define Kinetics; Newton’s 2nd Law; Euler’s 1st Law; Locate Mass Center of Composite Body Lecture10min
Worksheet Solutions: Define Kinetics; Newton’s 2nd Law; Euler’s 1st Law; Locate Mass Center of Composite Body10min
Pdf Version of Module 7: Solve for the Motion of the Mass Center of Bodies using Newton-Euler Equations I Lecture10min
Pdf Version of Module 8: Solve for the Motion of the Mass Center of Bodies using Newton-Euler Equations II Lecture10min
Worksheet Solutions: Solve for the Motion of the Mass Center of Bodies using Newton-Euler Equations II10min
Practice Problems10min
Solution of Quiz 110min
1 exercício prático
Course Introduction; Particle Kinematics; Particle Kinetics – Newton’s Laws and Euler’s Laws; Motion of Particles and Mass Centers of Bodies6min
2 horas para concluir
Work-Energy Principle for Particles/Systems of Particles
In this section students will learn the work-energy principle for particles/systems of particles, impulse and momentum, impact, conservation of momentum and Euler's 2nd Law - Moment of momentum.
2 horas para concluir
5 vídeos (Total 40 mín.), 8 leituras, 1 teste
5 videos
Module 10: Work Done by Gravity; Work Done by Friction; Solve Work-Energy Problems for Particles/System of Particles8min
Module 11: Impulse-Momentum Relationship; Define Impact6min
Module 12: Define Coefficient of Restitution; Solve an Impact Problem11min
Module 13: Define Angular Momentum; Euler’s 2nd Law (The Moment Equation)7min
8 leituras
Pdf Version of Module 9: Work and Kinetic Energy Principle for Particles/System of Particles; Work of a Linear Spring Lecture10min
Pdf Version of Module 10: Work Done by Gravity; Work Done by Friction; Solve Work-Energy Problems for Particles/System of Particles Lecture10min
Pdf Version of Module 11: Impulse-Momentum Relationship; Define Impact Lecture10min
Pdf Version of Module 12: Define Coefficient of Restitution; Solve an Impact Problem Lecture10min
Pdf Version of Module 13: Define Angular Momentum; Euler’s 2nd Law (The Moment Equation) Lecture10min
Earn a Georgia Tech Badge/Certificate/CEUs10min
Practice Problems10min
Solution of Quiz 210min
1 exercício prático
Work-Energy Principle for Particles/Systems of Particles; Impulse and Momentum; Impact; Conservation of Momentum; Euler’s 2nd Law – Moment of Momentum6min
3 horas para concluir
Planar (2D) Rigid Body Kinematics I
In this section students will learn about planar (2D) rigid body kinematics, relative velocity equation, rotation about a fixed axis, instantaneous center of zero velocity, and relative acceleration equations.
3 horas para concluir
6 vídeos (Total 58 mín.), 11 leituras, 1 teste
6 videos
Module 15: Solve a Relative Velocity problem9min
Module 16: Define and Locate the Instantaneous Center of Zero Velocity (IC)10min
Module 17: Solve an Instantaneous Center of Zero Velocity (IC) Problem9min
Module 18: Define Angular Acceleration; Derive the Relative Acceleration Equation7min
Module 19: Solve a Relative Acceleration Problem9min
11 leituras
Pdf Version of Module 14: Define Rigid Body Kinematics; Identify three types of Planar Rigid Body Motion; Derive Relative Velocity Equation Lecture10min
Pdf Version of Module 15: Solve a Relative Velocity problem Lecture10min
Worksheet Solutions: Solve a Relative Velocity Problem10min
Pdf Version of Module 16: Define and Locate the Instantaneous Center of Zero Velocity (IC) Lecture10min
Pdf Version of Module 17: Solve an Instantaneous Center of Zero Velocity (IC) Problem Lecture10min
Worksheet Solutions: Solve an Instantaneous Center of Zero Velocity (IC) Problem10min
Pdf Version of Module 18: Define Angular Acceleration; Derive the Relative Acceleration Equation Lecture10min
Pdf Version of Module 19: Solve a Relative Acceleration Problem Lecture10min
Worksheet Solutions: Solve a Relative Acceleration Problem10min
Practice Problems10min
Solution of Quiz 310min
1 exercício prático
Planar (2D) Rigid Body Kinematics: Relative Velocity Equation; Rotation about a Fixed Axis; Instantaneous Center of Zero Velocity; Relative Acceleration Equation6min
3 horas para concluir
Planar (2D) Rigid Body Kinematics II
In this section students will continue to learn about planar (2D) rigid body kinematics, relative velocity equation, rotation about a fixed axis, instantaneous center of zero velocity, and relative acceleration equations.
3 horas para concluir
8 vídeos (Total 73 mín.), 12 leituras, 1 teste
8 videos
Module 21: Acceleration of a Wheel rolling on a Fixed Plane Curve8min
Module 22: Solve a Rolling Wheel Problem4min
Module 23: Explain the Velocity of the Same Point Relative to Two Different Reference Frames or Bodies; Derive the Derivative Formula11min
Module 24: Derive the Equation for the Velocity of the Same Point Relative to Two Different Reference Frames or Bodies in Planar Motion7min
Module 25: Solve a Problem for the Velocity of the Same Point Relative to Two Different Frames or Bodies in Planar Motion10min
Module 26: Derive the Equation for the Acceleration of the Same Point Relative to Two Different Reference Frames or Bodies in Planar Motion10min
Module 27: Solve for the Acceleration of the Same Point Relative to Two Different Reference Frames or Bodies in Planar Motion12min
12 leituras
Pdf Version of Module 20: Acceleration of a Wheel Rolling on a Fixed Straight Surface Lecture10min
Pdf Version of Module 21: Acceleration of a Wheel rolling on a Fixed Plane Curve Lecture10min
Pdf Version of Module 22: Solve a Rolling Wheel Problem Lecture10min
Pdf Version of Module 23: Explain the Velocity of the Same Point Relative to Two Different Reference Frames or Bodies; Derive the Derivative Formula Lecture10min
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 Lecture10min
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 Lecture10min
Worksheet Solutions: Solve a Problem for the Velocity of the Same Point Relative to Two Different Frames or Bodies in Planar Motion10min
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 Lecture10min
Pdf Version of Module 27: Solve for the Acceleration of the Same Point Relative to Two Different Reference Frames or Bodies in Planar Motion Lecture10min
Worksheet Solutions: Solve for the Acceleration of the Same Point Relative to Two Different Reference Frames or Bodies in Planar Motion10min
Practice Problems10min
Solution of Quiz 410min
1 exercício prático
Planar (2D) Rigid Body Kinematics: Relative Velocity Equation; Rotation about a Fixed Axis; Instantaneous Center of Zero Velocity; Relative Acceleration Equation II6min
Avaliações
Principais avaliações do ENGENHARIA DE SISTEMA EM MOVIMENTO: A DINÂMICA DE PARTÍCULAS E CORPOS EM MOVIMENTO 2D
por SK7 de Mar de 2016
A brilliant course, gave me a great foundation for more advanced courses in mechanical engineering. When ever i use some of the things i learned in this course in my work i think of Whiteman.
por AK13 de Out de 2018
I would just like to say that Prof. Whiteman is a great explainer. I would like to complete most of the courses by him that are available on Coursera.
por AA18 de Dez de 2017
Awesome course for Design Engineers as well design professionals.. It gives basic concepts as well as application to practical problems.
por TS21 de Ago de 2019
A good thorough course for engineers. The videos and practice problems were very helpful in practicing and understanding the material.
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