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REFERENCES b. Zill D.G., & Cullen, M.R., 2005, Differential
a. Gates, E.D., 2007, Introduction to Electronic, Equations with Boundary-Value Problems, 6th
5th Edition, Delmar Thomson Learning. Edition, Thomson Learning, Inc.
b. Schuler, C.A., 1999, Electronics, Principles and c. Bronson, R., 2003, Differential Equations, New
Application, 5th Edition, Mc-Graw-Hill. York: Mc Graw Hill.
c. Crisp, J., 2000, Introduction to Digital Systems, d. Boyce, W.E., and Diprima, R.C., 2001,
Newness. Elementary Differential Equations with Boundary
d. Tocci, R.J., Digital System, Principles and Value Problems, John Willey & Sons, Fifth
Application, 4th Edition, Prentice Hall. Edition.
e. Green, D.C., Digital Electronics, 5th Edition,
Addison Wesley Longman.
DMCU 2963 INDUSTRIAL TRAINING
LEARNING OUTCOMES
DMCU 2062 DIFFERENTIAL EQUATIONS At the end of this course, students should be able to:
LEARNING OUTCOMES LO1 Describe relevant process in company
At the end of this course, students should be able to: through report writing, interview and
LO1 Understand the basic concepts of Differential presentation session.
Equations, Laplace Transform and Fourier LO2 Apply theory and skills acquired in class,
Series. workshop and labs in actual industrial
LO2 Identify and analyze the problems of environment.
ordinary differential equations. LO3 Solve the given technical problem during the
LO3 Solve the problems of ordinary differential industrial training.
equations. LO4 Cooperate in a team and contribute to
LO4 Apply the knowledge of differential project outcome.
equations in order to solve engineering LO5 Adopt professional practice and ethics in
problems. work. Obey company rules and regulations.
LO5 Operate the CNC machine to produce a LO6 Seek additional relevant information from
product. various sources related to the problem
SYNOPSIS independently to make improvement.
This course will discuss about the basic concepts of SYNOPSIS
Differential Equations; First Order Differential All students are required to undergo industrial
Equations; Second Order Linear Differential training as part of their curiculum to complete their
Equation with constant coefficients, Laplace three (3) years course for the Diploma of Mechanical
Transform and Fourier Series. Engineering. It is compulsory for all diploma
REFERENCES program students to undergo the Industrial Training
a. Md. Raji, A.W., and Mohamad, M.N., Modul Programme. The duration of training is 10 weeks
Persamaan Pembezaan, Jabatan Matematik, and it will be taken place during semester break
Fakulti Sains, UTM & Pusat Pengajian Sains, after semester 4.
Universiti Tun Hussein Onn Malaysia, Malaysia.
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