ENGR-2302 Engineering Mechanics-Dynamics
Basic theory of engineering mechanics, using calculus, involving the motion of particles, principles of impulse and momentum; application of kinetics and kinematics to the solution of engineering problems. Lec 2, Lab 2, Cr 3
Outcomes
- Express dynamic quantities as vectors in terms of Cartesian components, polar coordinates, and normal-tangential coordinates.
- Compute mass moments of inertia for systems of particles and rigid bodies.
- Solve kinematic problems involving rectilinear and curvilinear motion of particles.
- Solve kinetic problems involving a system of particles using Newton's Second Law.
- Apply the principles of work and energy, conservation of energy, impulse and momentum, and conservation of momentum to the solution of engineering problems involving particles and systems of particles.
- Solve kinematic problems involving the translation and rotation of a rigid body.
- Solve kinetic problems involving planar translation and rotation of rigid bodies.
- Apply the principles of work and energy, conservation of energy, impulse and momentum, and conservation of momentum to the solution of engineering problems involving rigid bodies in planar motion.