CE204
Dynamics
Catalog Data
CE 204 Dynamics
(2– 0 : 3)
Learn kinematics of particles: rectilinear continuous and erratic motion, general curvilinear
motion; rectangular, normal-tangential and cylindrical components, absolute dependent motion
of two particles and relative motion of two particles. Learn kinetics of particles: forceacceleration, Newton’s Laws of Motion, equations of motion; rectangular, normal-tangential,
and cylindrical coordinates. Learn kinetics of particles: work-energy; principle of work and
energy, work of a force, conservative forces, potential energy, elastic potential energy, and
kinetic energy, conservation of energy. Learn kinetics of particles: impulse-momentum;
principle of linear impulse and momentum, principle of angular impulse and momentum,
conservation of linear momentum of system of particles, impact. Learn planar kinematics of
rigid bodies; rigid body motion, translation, rotation about fixed axis, absolute general motion,
relative motion, instantaneous center.
Textbook
Russell C. Hibbeler “Engineering Mechanics, Dynamics” Prentice-Hall, Inc., Simon &
Schuster Company, Englewood Cliffs, New Jersey 07632
References
Coordinator
1.
Class Notes
Dr. Karim Numayr
Goals
Provide the student with the knowledge of kinematics and kinetics of particles, Newton’s Laws of
Motion, rectangular, normal-tangential, and cylindrical coordinates, work-energy principle
linear and angular impulse-momentum principle conservation of linear momentum of system of
particles, impact, planar kinematics of rigid bodies; rigid body motion, translation, rotation
about fixed axis and absolute general motion.
Learning
Outcomes:
After successfully completing this course, the students should be able to:
1. understand linear and curvilinear motion of particles to be able to define
displacement, velocity and acceleration functions using different coordinate
systems.
2. understand absolute dependent motion of two particles and relative
motion of two particles using translating axes.
3. understand Newton’s Laws of Motion and to be able to define equations
of motion in rectangular, normal-tangential, or cylindrical coordinates
4. understand work-energy principle, work of a force, conservative forces,
potential energy, elastic potential energy, kinetic energy, conservation of
energy.
5. understand linear and angular impulse-momentum principles, conservation
of linear momentum of system of particles, impact.
6. understand planar kinematics of rigid bodies; rigid body motion,
translation, rotation about fixed axis.
7. understand absolute general motion, relative motion, instantaneous center.
Pre-Requisites
by Topic
1. General knowledge in Engineering Mechanics
2. Statics
1. kinematics of particles: rectilinear continuous and erratic motion, 12 Lecture
(50 min. each)
general curvilinear motion; rectangular, normal-tangential and cylindrical
components.
2. absolute dependent motion of two particles and relative motion of two 5 Lecture
particles
7 Lectures
3. kinetics of particles: force-acceleration.
7 Lectures
4. kinetics of particles: work-energy
9 Lectures
5. kinetics of particles: impulse-momentum.
6. planar kinematics of rigid bodies; rigid body motion, translation, 4 Lectures
rotation about fixed axis
4 Lectures
7. absolute general motion, relative motion, instantaneous center.
Russell C. Hibbeler “Engineering Mechanics, Dynamics” Prentice-Hall, Inc., Simon & Schuster Company,
Englewood Cliffs, New Jersey 07632
Topics
Computer
Usage
None
Assessment
and Grading
Assignments & short reports.………………….. 10%
2 exams @ 20% each …………………………. 50%
Estimated
Content
kinematics of particles.
kinetics of particles: force-acceleration, work-energy, impulsemomentum, impact.
kinematics of planar rigid bodies.
Prepared by
Dr. Karim Numayr
Date:
Final Exam ……………..…………. 40%
March 2007
0.7 Credit
0.9 Credit
0.4 Credit
CE 204
Dynamics
(2 - 0:3)
Description: Learn kinematics of particles: rectilinear continuous and erratic motion, general curvilinear motion;
rectangular, normal-tangential and cylindrical components, absolute dependent motion of two particles and relative
motion of two particles. Learn kinetics of particles: force-acceleration, Newton’s Laws of Motion, equations of
motion; rectangular, normal-tangential, and cylindrical coordinates. Learn kinetics of particles: work-energy; principle
of work and energy, work of a force, conservative forces, potential energy, elastic potential energy, and kinetic energy,
conservation of energy. Learn kinetics of particles: impulse-momentum; principle of linear impulse and momentum,
principle of angular impulse and momentum, conservation of linear momentum of system of particles, impact. Learn
planar kinematics of rigid bodies; rigid body motion, translation, rotation about fixed axis, absolute general motion,
relative motion, instantaneous center.
Pre-requisite: Statics, CE201
Student Assessment and Grading: Assignments (10%), 2 Exams @ 25% each (50%), Final Exam (40%)
Learning outcomes, delivery and assessment methods- Cross Reference Table:
Student Learning Outcome
1.
2.
3.
4.
5.
6.
7.
understand linear and curvilinear
motion of particles to be able to
define displacement, velocity and
acceleration
functions
using
different coordinate systems.
understand absolute dependent
motion of two particles and
relative motion of two particles
using translating axes.
understand Newton’s Laws of
Motion and to be able to define
equations of motion in
rectangular, normal-tangential,
or cylindrical coordinates
understand
work-energy
principle, work of a force,
conservative forces, potential
energy,
elastic
potential
energy,
kinetic
energy,
conservation of energy
understand linear and angular
impulse-momentum principles,
conservation
of
linear
momentum of system of
particles, impact
understand planar kinematics of
rigid bodies; rigid body
motion, translation, rotation
about fixed axis.
absolute
motion,
relative
instantaneous center.
understand
general
motion,
Method of
Delivery
lectures, solve
examples,
Assessment
Methods
assignments, exams
Program objectives
lectures, solve
examples,
assignments, exams
a, e,j, k
lectures, solve
examples,
assignments, exams
a,e, j, k
lectures, solve
examples,
assignments, exams
a,e, j, k
lectures, solve
examples,
assignments, exams
a,e, j, k
lectures, solve
examples,
assignments, exams
a,e, j, k
lectures, solve
examples,
assignments, exams
a,e,f,i, j, k
a, e, j, k