EGR-2210 - Dynamics* (3)

Prerequisite: EGR-1210 ; PHY-1210 or PHY-1310
In this engineering mechanics course, students study the motion of particles and rigid bodies in a plane and three-dimensional space. Topics include particle kinematics, particle kinetics, rigid body kinematics, and rigid body kinetics. Along with Newton’s second law of motion (force-acceleration), the principles of work-energy and impulse-momentum will be explored and applied to the solution of problems.

List Course Outcomes (consistent for all sections)
CO1 - Derive kinematic relationships for the motion of particles in rectangular, normal-tangential, and polar/cylindrical coordinate systems to apply to kinematics problems.

CO2 - Solve kinematics problems involving the translation and rotation of rigid bodies using absolute and relative motion analysis.

CO3 - Apply force-acceleration principles to solve problems involving particles or rigid bodies.

CO4 - Apply work-energy principles to solve problems involving particles or rigid bodies.

CO5 - Apply impulse-momentum principles to solve problems involving particles or rigid bodies.

Course Fee: None

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