Credit Structure: (3-0)3

Catalog Description:
Kinematics of particles and rigid bodies; absolute motion and relative motion. Kinetics of particles; equations of motion, work-energy and impulse-momentum. System of particles. Kinetics of rigid bodies; Euler's equation, plane motion of rigid bodies, kinetic energy of rigid bodies. Introduction to the dynamics of vibrating bodies.

Course Objectives:
The objective of the course is to broaden the horizons of the students in the field of engineering mechanics.

Prerequisites:
CE 221

Textbook(s):
F.P. Beer and E.R. Johnston, "Vector Mechanics for Engineers-Dynamics", SI Metric Ed., McGraw Hill, 1990.

Reference(s):
R.C. Hibbeler, "Engineering Mechanics-Dynamics", Maxwell Macmillan, 1992.

Syllabus:
1. Kinematics of particles
2. Kinetics of particles: Forces and accelerations
3. Kinetics of particles: Work and energy
4. Kinetics of particles: Impulse and momentum
5. Planar kinematics of rigid bodies
6. Planar kinetics of rigid bodies: Forces and accelerations
7. Planar kinetics of rigid bodies: Work and energy
8. Vibration analysis of single degree of freedom systems

Homeworks, Quizzes, Projects:
None

Computer Usage:
None

Laboratory Work:
None

Category Content:
Mathematics and Basic Sciences: None
Engineering Design: None
Engineering Sciences: 3 credits
Humanities & Social Sciences: None
Departmental: None

Instructors:
Haluk Sucuoglu