Effective: 2023-01-01

Course Description

The course outline below was developed as part of a statewide standardization process.

General Course Purpose

Prepare students for further studies in branches of engineering requiring mechanics.

Course Prerequisites/Corequisites

Prerequisites: EGR 240 or departmental approval.

Course Objectives

• Critical Thinking
• Select an appropriate coordinate system (Cartesian, normal-tangential, cylindrical) and analyze the motion of particles and rigid bodies.
• Analyze the motion of particles and rigid bodies using different coordinate systems.
• Analyze the motion of bodies relative to translating and/or rotating coordinate frames.
• Use the equations of motion to compute the position, velocity, and acceleration of multiple points on rigid bodies in constrained motion.
• Construct free-body diagrams and apply Newton's Second Law to analyze the dynamics of particles and planar rigid body motion.
• Apply the work-energy principle, linear-impulse and momentum, angular-impulse and momentum, and conservation theorems (conservation of linear momentum, angular momentum, and energy) to particles and rigid bodies undergoing planar motion.
• Analyze the motion of impacting particles using impulse and momentum concepts.
• Quantitative Reasoning
• Calculate the mass moment of inertia of rigid body

Major Topics to be Included

• Particle kinematics
• Free body diagrams
• Planar rigid body kinematics
• Constrained motion of rigid bodies
• Translating/rotating coordinate systems
• Work-energy principle
• Conservation of energy
• Linear-impulse and momentum
• Conservation of linear momentum
• Angular-Impulse and Momentum
• Conservation of angular momentum
• Mass moment of inertia
• Equations of motion
• Impact (Particles only)