Page 91 - Academic Handbook FKM 2017-2018
P. 91
REFERENCES and energy, principle of impulse and momentum for
a. Calister, W.D., 2008, Materials Science and particle and rigid body.
Engineering: An Introduction, 6 Edition, John REFERENCES
th
Wiley & Sons. a. Beer, F.P., 2010, Vector Mechanics for
b. Smith, W.F., 2004, Foundation of Materials Engineers, Dynamics SI Units, 9th Edition,
Science and Engineering, 4th Edition, McGraw McGraw-Hill.
Hill. b. Hibbeler, R.C., 2010, Engineering Mechanics,
c. Shackelford, J.F., 2000, Introduction to Dynamics, 12 Editions, Prentice Hall.
th
Materials Science for Engineers, 5 Edition, c. Bedford, A., and Fowler, W., 2008,
Prentice Hall. Engineering Mechanics, Dynamics, 5th Edition,
d. Askeland, D.R., 1994, The Science and Prentice Hall.
Engineering of Materials, 3 Edition, PWS
rd
Publication Co.
e. Budinski, K.G. and Budinski M.G., 1999, DMCU 2052 ENGINEERING MATHEMATICS
Engineering Materials: Properties and Selection, LEARNING OUTCOMES
6 Edition, Butterworth-Heinemann UK. At the end of this course, students should be able to:
th
LO1 Describe the concept and applications of
multivariable functions.
DMCM 2713 DYNAMICS LO2 Apply partial derivatives method in solving
LEARNING OUTCOMES engineering problems
At the end of the course, students should be able to: LO3 Evaluate and apply two variable integral
LO1 To apply the concept of position, velocity and function over the plane region.
acceleration in determine the motion of LO4 Evaluate and apply three variable integral
particle and rigid body. function over the plane region.
LO2 Apply equation of motion in solving the LO5 Evaluate and apply calculus techniques in
particle and rigid body motion. solving vector valued functions.
LO3 Solve the problem involving rectilinear and SYNOPSIS
curvilinear motion. This course consists of three chapters: Functions of
LO4 Analyze dynamics problem using principle of Several Variables, Multiple Integrals and Vector-
work and energy. Valued Functions. The syllabus is developed by
LO5 Analyze reaction of forces and acceleration introducing the concepts of the functions with several
for a translating and rotating rigid body variables, integration and also vector-valued
using Newton’s law of motion. function, followed by learning various techniques in
SYNOPSIS solving the problems and its application in physical
This course introduce to the principle of dynamics and engineering fields.
based on kinematics and kinetic. Understand the REFERENCES
concept of position, velocity and acceleration, a. Jusoh, M.M., et al., 2010, Engineering
application of Newton second law, principle of work Mathematics, Pearson.
81
