Download Department of Engineering Division of Architecture, Engineering

Department of Engineering
Division of Architecture, Engineering & Technology
West Campus Building 9, Room 140 (407)-582-1902/1903
http://www.valenciacollege.edu/west/engineering
SESSION: SPRING 2016
Course syllabus for EGN-2322, Engineering Analysis-Dynamics, CRN 27647
Office hours:
Monday:
7:30 AM – 8:30 AM and 10 :00AM - 11 :30AM
Tuesday :
7 :30AM - 8 :30AM and 10 :30AM-11 :00AM
Wednesday : 7 :30AM- 8 :30AM and 10 :00-11 :30AM
Thursday:
8 :00 AM – 10:00AM.
Friday :
7 :30 AM – 9:00 AM on line/e mail
Catalog Course Description: Kinematics and Kinetics of particles and rigid bodies: mass
and acceleration, work and energy, impulse and momentum.
Class time and location:
CRN 27647: 11:30AM – 12:45 PM, M-W, Bldg 11 room 236.
Textbook: Engineering mechanics Dynamics, 14th edition by R.C., text with e-version
(mastering engineering web site included), Hibbeler, Publisher: Prentice Hall.
ISBN: 13:978-0-13-422826-6 (students to do their own verification on up to date ISBN
number)
Materials: Programmable calculator required (TI-89 or above preferred).
Professor’s Information:
Henry Regis
Office: West Campus, Bldg 11, room 260.
Phone: 407-582-1218
E-mail: [email protected]
__________________________________________________________________
Student Performance Assessment:
Weight of tests (2):
30%
Weight of quizzes:
30%
Weight of final:
30%
Weight of home work 10% (includes extra credit in class in 10%)
Grading scale: 90-100% = A
80-89% = B
70-79% = C
60-69% = D
0-59% = F
____________________________________________________________________
Notes/Policy:
1. The syllabus and course outline may be changed by notice from the instructor.
2. Homeworks will be done on line at the Mastering Engineering website.
The course ID for the mastering engineering website log in will be
MEREGIS27647.
3. It is your responsibility to get familiar with the website requirements
prior to attempting the homework problems. Certain units and
formatting requirements pertain. Get familiar with Mastering
Engineering help sections BEFORE you submit home works.
4. Withdrawal deadline: April 1st. You cannot withdraw after that date
(per new Valencia policy). I will NOT withdraw you after that date.
5. Refund deadline: January 14th.
6. Class attendance and punctuality are crucial factors in the learning process
and successful completion of the course. Students with more than 3 unexcused
absences may be withdrawn from the course. Being more than 15 minutes
late will be counted as an unexcused absence (unless agreed to by the
instructor in advance or an emergency as agreed to by instructor).
7. No make ups for quizzes or tests will be given for any reason (no
exceptions including medical). Early test or quiz MAY be given with
advance notice if instructor agrees. Lowest quiz score will be dropped. If
you miss a test you will not receive a zero but your final exam will count more
to compensate. A pop quiz may be given if attendance at the beginning of
the class is low.
8. No late work will be accepted, no exceptions (including medical or other
emergency).
9. Extra credit which will count towards your homework grade (max of
10% total for the home work and extra credit) will be given for correct
and justified answers in class practice. No laptops, phones or pads can be
open during extra credit work in class.
10. It is the student’s responsibility to find out what was covered in class if
absent.
11. Answers on home works, quizzes and tests must be circled and justified for
proper credit.
12. Students with disabilities; see me early if you need special arrangements and
you have officially gone through the office of disabilities.
13. Check your atlas account regularly for possible e-mails from the instructor for
assignment changes or any other worthy news.
14. Turn off and put away your cellular phones prior to entering the
classroom. Do not leave the class room to answer cell calls unless real
emergency. Do not text in class.
15. Making audio or/and video recording of lectures or any classroom
activities is not permitted unless official permission has been obtained by
the Office with Disabilities and the instructor prior to ANY recordings.
16. I am here to help. See me or our engineering tutor in the lab EARLY if
you are struggling with the concepts. You should expect to spend 2 to 3
hours outside of class for each hour in the class room to be successful in
this class (this varies with the student of course).
17. If you miss the final, you will receive an F in the class.
Course learning outcomes:



Student will be able to perform derivatives of vector functions
Student will be able to calculate position, velocity and acceleration of a point
Student will be able to demonstrate an appreciation for Newtonian Mechanics
 Student will be able to able to apply Kinematics using a rectangular coordinate system
 Student will demonstrate the use of the equations of motion
 Student will be able to calculate accelerations using Newton's second law and corresponding
mass-acceleration diagrams
 Student will be able to perform Kinematic calculations using a Normal-Tangent coordinate system
 Student will demonstrate ability to perform Kinematic calculations using a Radial-Transverse
coordinate system
 Student will able to perform calculations using Force-Mass-Acceleration Method in a Curvilinear
Coordinate System
 Student will show ability to calculate work due to a force
 Student will demonstrate ability to apply the Principle of Work and Kinetic Energy
 Student will be able to distinguish between conservative and non-conservative forces
 Student will be able to show ability to utilize the principle of Impulse and Momentum
 Student will be able to analyze motion of satellites in Space under a gravitational force
 Student will be able to demonstrate understanding of the Kinematics of Relative and Constrained
Motion
 Student will be able to perform calculations using the Equations of Motion of the Mass Center
 Student will be able to apply the Work-Energy and Impulse-Momentum Principles with two or more
particles
 Student will show ability to use the Principle of Impulsive motion to solve for forces or time
variables.
 Student will be able to perform calculations as related to an object in three dimensions in rotation
about a fixed axis
 Student will demonstrate an ability to analyze the Kinematics of Plane Motion
 Student will be able to calculate velocities and accelerations using the relative velocity equation as
related to Plan Motion
 Student will be able to calculate velocities using the Concept of Instantaneous Center of Rotation
 Student will perform calculations using the Concept of Mass Moment of Inertia as applied to
Composite Bodies
 Student will be able to perform calculations related to the angular momentum of a rigid body
 Student will be able to perform calculations using the Equations of Plane Motion
 Student will be able to perform calculations related to the work and power of a couple





Student will demonstrate an ability to analyze the kinetic energy of a rigid body in plane motion
Student will demonstrate an ability to use the Work-Energy and Conservation of Mechanical
Energy Principles as applied to rigid objects in plane motion
Student will demonstrate an ability to calculate velocities as related to rigid body impact.
Students will demonstrate the ability to perform calculations related to the undamped vibrations of
particles
Students will be able to analyze the free vibrations of rigid bodies
_____________________________________________________________
Course Outline for Course EGN-2322, CRN 27647 Spring 2016
(Subject to change at the discretion of the instructor)
Week of:
Subject
Chapter and sections
1/11
Kinetics of a particle
12
1 thru 6
1/18
Kinetics of a particle
12
7 thru 10
(January18th is a holiday, MLK)
1/25
2/1
Kinetics of a particle
Kinetics of a particle:
13
14
1 thru 7
1 thru 6
Work and Energy
2/8
Kinetics of a particle:
15
1 thru 7
Impulse and Momentum
2/15
Planar Kinematics of a
16
1 thru 8
17
1 thru 5
rigid body.
2/22
Planar Kinematics of a Rigid body,
Force and Acceleration
2/29
Planar Kinetics of Rigid Bodies:
Work and Energy
3/7
college closed week of 3/7, spring break
18
1 thru 5
3/14
Planar Kinetics of a Rigid body:
3/21
Impulse and Momentum
3/28
Planar kinetics of a Rigid Body:
19
19
3 thru 4
Conservation of momentum
4/4
4/11
4/11
4/18
4/25
3 Dim. Kinematics of a Rigid Body
20
3 Dim. Kinematics of a Rigid Body
Chapter 20 and start 22
1thru3
20
20, 22
Review, Finish chapter 22
Finals (actual day TBD)
16,17,18,19,20,22
4