Page 49 - Academic Handbook FKM 2017-2018
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YEAR 2 COURSES - COMMON CORE
BEKG 2433 ELECTRICAL SYSTEM sources.The students will also learn on basic
LEARNING OUTCOMES characteristics and performance of electrical
At the end of the course, students should be able to: transmission line and distribution system.
LO1 Explain the basic principle of REFERENCES
electromagnetism, power concepts & a. Glover, S. & Overbye, 2012, Power System
equations, power factor corrections (single Analysis and Design, 5th ed., Cengage
and three-phase system) and per-unit Learning.
calculation. b. Saadat, H., 2004, Power System Analysis, 2nd
LO2 Analyze the characteristics for static and ed., Mc-Graw Hill.
rotation electric machine principles, including c. Hughes, Electrical and Electronic Technology,
AC, DC, Synchronous and induction motor and 10th ed., UK: Pearson Edu. Ltd.
transformer.
LO3 Apply the concepts of the electric power
system network (generation, transmission and BENG 2142 STATISTICS
distribution) and various power generation LEARNING OUTCOMES
system and energy sources. At the end of the course, students should be able to:
LO4 Apply the characteristics and performance of LO1 Identify clearly the concept of probability for
electrical transmission line and distribution a range of discrete and continuous random
system. phenomena.
SYNOPSIS LO2 Apply the concept of sampling distribution,
This is an introductory course for students on the estimation and hypothesis testing to draw
fundamental knowledge of electrical power system. valid conclusion in solving engineering
The students will be taught on the physics of problems.
electrical power system, which includes the theory LO3 Analyze and interpret data by using simple
and analysis of electromagnetism, followed linear and multiple linear regression
bypower concepts &equations (single and three techniques to forecast and produce statistical
phase), power factor &power factor corrections, information.
single and three-phase system and per-unit LO4 Perform the given tasks that pertain to the
calculation. There will also topics on characteristics engineering problems by using the
for static and rotating electric machine principles, knowledge of statistics.
including AC, DC, synchronous, induction motor and SYNOPSIS
transformer. Furthermore, students will be introduced Topics covered: data description, measurement,
to the concepts on the electric power system network probability, discrete random variable, continuous
(generation, transmission and distribution) and random variable, sampling distribution, estimation,
various power generation system and energy hypothesis testing, simple linear regression and
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