Mechanics II - Dynamics

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Subject:

Science and Technology

Institution Name:

The Saylor Foundation

Collection:

Saylor Foundation

Grade Level:

Post-secondary

Abstract:

This course introduces dynamics, a sub-branch of the general field of study known as Mechanics. Upon successful completion of this course, the student will be able to: Formulate rectilinear and curvilinear motion in one-dimension; Solve projectile motion problems; Identify and solve problems with normal, tangential, and cylindrical components for curvilinear motion in one-dimension; Formulate relative motion of two particles and relative motion using translating axes for particles in one-dimension; Identify Newton's second law, Identify equations of motion for a system of particles in one-dimension; Identify equations of motion in rectangular, normal, tangential, and cylindrical components in one-dimension; Identify orbital motion and space mechanics; Solve work, energy, power, and efficiency for particles and systems of particles in one-dimension; Identify energy, potential energy, and conservation of energy for particles and systems of particles in one-dimension; Identify impulse, momentum, and conservation of momentum for particles and systems of particles in one-dimension; Identify angular momentum, angular impulse, and impact for particles and systems of particles in one-dimension; Identify translation and rotation of rigid bodies in two-dimensions; Identify absolute and relative motion analysis in two-dimensions; Identify Instantaneous Center of Zero Velocity; Identify acceleration and rotating axes in two-dimensions; Formulate Moment of Inertia for Rigid bodies; Identify planar kinetic equations of motion, translation, rotation, and general plane motion for rigid bodies; Identify work, energy, and kinetic energy for rigid bodies; Compute work done by a force and work done by a couple for rigid bodies; Identify work and energy principles and conservation of energy for rigid bodies; Identify impulse, momentum, and conservation of momentum for a system of particles; Identify impact and eccentric impact for a system of particles; Identify kinematics of rigid bodies in three-dimensions; Identify general motion and relative motion in three-dimension; Identify angular motion and kinetic energy in three-dimension; Identify undamped free and force vibrations; Identify viscous damped free and forced vibrations. (Mechanical Engineering 202)

Languages:

English

Material Type:

Assessments, Full Course, Lecture Notes, Readings, Syllabi, Video Lectures

Media Format:

Graphics/Photos, Text/HTML, Downloadable docs, Video

Conditions of Use:

Creative Commons Attribution-Noncommercial 3.0
You are welcome to share, remix, and adapt this course under the terms of the Creative Commons Attribution 3.0 Unported License; however, many linked materials within this course are copyright of their respective authors/owners and may not be openly-licensed. Please respect the copyright and terms of use associated with each resource.

Copyright Holder:

The Saylor Foundation