Acerca de este Curso

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Fechas límite flexibles
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Aprox. 18 horas para completar
Inglés (English)

Resultados profesionales del estudiante

50%

consiguió un beneficio tangible en su carrera profesional gracias a este curso
Certificado para compartir
Obtén un certificado al finalizar
100 % en línea
Comienza de inmediato y aprende a tu propio ritmo.
Fechas límite flexibles
Restablece las fechas límite en función de tus horarios.
Aprox. 18 horas para completar
Inglés (English)

ofrecido por

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Instituto de Tecnología de Georgia

Programa - Qué aprenderás en este curso

Calificación del contenidoThumbs Up95%(1,079 calificaciones)Info
Semana
1

Semana 1

4 horas para completar

Course Introduction; Angular Velocity; Angular Acceleration

4 horas para completar
6 videos (Total 53 minutos), 13 lecturas, 1 cuestionario
6 videos
Module 2: Derive the “Derivative Formula”; Define Angular Velocity for 3D Motion12m
Module 3: Define the Properties of Angular Velocity for 3D Motion5m
Module 4: Solve for the Angular Velocity of a body undergoing 3D Motion10m
Module 5: Determine the Angular Acceleration for a Moving Reference Frame Relative to another Reference Frame8m
Module 6: Solve for the Angular Acceleration for a Body expressed in a Series of Multiple Reference Frames10m
13 lecturas
Syllabus10m
Consent Form10m
Pdf version of Course Introduction Lecture10m
Pdf version Module 2: Derive the “Derivative Formula”; Define Angular Velocity for 3D Motion Lecture10m
Pdf version of Module 3: Define the Properties of Angular Velocity for 3D Motion Lecture10m
Pdf version of Module 4: Solve for the Angular Velocity of a body undergoing 3D Motion Lecture10m
Worksheet Solutions: Solve for the Angular Velocity of a Body Undergoing 3D Motion10m
Pdf version of Module 5: Determine the Angular Acceleration for a Moving Reference Frame Relative to another Reference Frame Lecture10m
Pdf version of Module 6: Solve for the Angular Acceleration for a Body expressed in a Series of Multiple Reference Frames Lecture10m
Worksheet Solutions: Solve for the Angular Acceleration for a Body Expressed in a Series of Multiple Reference Frames10m
Get More from Georgia Tech10m
Practice Problems10m
Solution of Quiz 110m
1 ejercicio de práctica
Course Introduction; Angular Velocity; Angular Acceleration30m
Semana
2

Semana 2

3 horas para completar

Velocities in Moving Reference Frames; Accelerations in Moving Reference Frames; The Earth as a Moving Frame

3 horas para completar
6 videos (Total 64 minutos), 11 lecturas, 1 cuestionario
6 videos
Module 8: Solve for Velocities Expressed in Moving Frames of Reference10m
Module 9: Accelerations expressed in Moving Frames of Reference10m
Module 10: Solve for the Velocity and the Acceleration for Bodies Undergoing 3D Motion and Expressed in Moving Frames of Reference12m
Module 11: Equations of Motion for a Particle Moving Close to the Earth12m
Module 12: Solve a Problem for the Motion of Particles Moving Close to the Earth6m
11 lecturas
Pdf version of Module 7: Velocities expressed in Moving Frames of Reference Lecture10m
Pdf version of Module 8: Solve for Velocities Expressed in Moving Frames of Reference Lecture10m
Worksheet Solutions: Solve for Velocities Expressed in Moving Frames of Reference10m
Pdf version of Module 9: Accelerations expressed in Moving Frames of Reference Lecture10m
Pdf version of Module 10: Solve for the Velocity and the Acceleration for Bodies Undergoing 3D Motion and Expressed in Moving Frames of Reference Lecture10m
Worksheet Solutions: Solve for the Velocity and the Acceleration for Bodies Undergoing 3D Motion and Expressed in Moving Frames of Reference10m
Pdf version of Module 11: Equations of Motion for a Particle Moving Close to the Earth Lecture10m
Pdf version of Module 12: Solve a Problem for the Motion of Particles Moving Close to the Earth Lecture10m
Earn a Georgia Tech Badge/Certificate/CEUs10m
Practice Problems10m
Solution of Quiz 210m
1 ejercicio de práctica
Velocities in Moving Reference Frames; Accelerations in Moving Reference Frames; The Earth as a Moving Frame30m
Semana
3

Semana 3

3 horas para completar

Eulerian Angles; Eulerian Angles Rotation Matrices; Angular Momentum in 3D; Inertial Properties of 3D Bodies

3 horas para completar
8 videos (Total 70 minutos), 10 lecturas, 1 cuestionario
8 videos
Module 14: Angular Velocity of Bodies in 3D Motion using Eulerian Angles6m
Module 15: Derive Rotational Transformation Matrices6m
Module 16: Solve a Problem Using Rotational Transformation Matrices7m
Module 17: Review Particle Kinetics; Newton’s Laws for Particles; and Euler’s 1st Law for Bodies10m
Module 18: Review the Definition of Angular Momentum; and Euler’s 2nd Law for Bodies7m
Module 19: Angular Momentum for Bodies in 3D Motion12m
Module 20: Review Mass Moments of Inertia and Products of Inertia; Inertial Property Matrix11m
10 lecturas
Pdf version of Module 13: Eulerian Angles for 3D Rotational Motion Lecture10m
Pdf version of Module 14: Angular Velocity of Bodies in 3D Motion using Eulerian Angles Lecture10m
Pdf version of Module 15: Derive Rotational Transformation Matrices Lecture10m
Pdf version of Module 16: Solve a Problem Using Rotational Transformation Matrices Lecture10m
Pdf version of Module 17: Review Particle Kinetics; Newton’s Laws for Particles; and Euler’s 1st Law for Bodies Lecture10m
Pdf version of Module 18: Review the Definition of Angular Momentum; and Euler’s 2nd Law for Bodies Lecture10m
Pdf version of Module 19: Angular Momentum for Bodies in 3D Motion Lecture10m
Pdf version of Module 20: Review Mass Moments of Inertia and Products of Inertia; Inertial Property Matrix Lecture10m
Practice Problems10m
Solution of Quiz 310m
1 ejercicio de práctica
Eulerian Angles; Eulerian Angles Rotation Matrices; Angular Momentum in 3D; Inertial Properties of 3D Bodies30m
Semana
4

Semana 4

3 horas para completar

Translational and Rotational Transformations of Inertial Properties; Principal Axes and Principal Moments of Inertia

3 horas para completar
6 videos (Total 47 minutos), 9 lecturas, 1 cuestionario
6 videos
Module 22: Rotational Transformation of Inertial Properties4m
Module 23: Rotational Transformation of Inertial Properties (cont)8m
Module 24: Define Principal Axes and Principal Moments of Inertia4m
Module 25: Determine Principal Axes and Principal Moments of Inertia10m
Module 26: Solve for Principal Axes and Principal Moments of Inertia with an Example11m
9 lecturas
Pdf version of Module 21: Translational Transformation of Inertial Properties Lecture10m
Pdf Version of Module 22: Rotational Transformation of Inertial Properties Lecture10m
Pdf Version of Module 23: Rotational Transformation of Inertial Properties (cont) Lecture10m
Pdf Version of Module 24: Define Principal Axes and Principal Moments of Inertia Lecture10m
Pdf Version of Module 25 Determine Principal Axes and Principal Moments of Inertia Lecture10m
Pdf Version of Module 26: Solve for Principal Axes and Principal Moments of Inertia Lecture10m
Worksheet Solutions: Solve for Principal Axes and Principal Moments of Inertia with an Example10m
Practice Problems10m
Solution of Quiz 410m
1 ejercicio de práctica
Translational and Rotational Transformations of Inertial Properties; Principal Axes and Principal Moments of Inertia.30m

Reseñas

Principales reseñas sobre ADVANCED ENGINEERING SYSTEMS IN MOTION: DYNAMICS OF THREE DIMENSIONAL (3D) MOTION

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