Electrical power station Electrical engineers work on a extensive range of devices, systems and components, from huge power station generators to small microchips . In early beginnings, the field of electrical engineering has developed and branched out into a number of specialized categories, including power generation and transmission systems, motors, control systems and batteries. Electrical engineering also includes electronics, which has itself branched into an even greater number of subcategories, such as radio frequency systems, telecommunications, digital circuits , instrumentation, audio, video and optoelectronics. Easy to get job Electrical Engineering students find their first job honestly easily because most employers search for fresh minds with good training. They are glad to get young people they can change to their own specific needs and turn them into experts. This is also the reason why Electrical Engineers are the most valued on...
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| Electrical power station |
Electrical engineers work on a extensive
range of devices, systems and components,
from huge power station generators to
small microchips.
In early beginnings, the field of electrical engineering has developed
and branched out into a number of specialized categories, including power generation and transmission systems,
motors, control systems and batteries. Electrical
engineering also includes electronics, which has itself branched into an
even greater number of subcategories, such as radio frequency systems,
telecommunications, digital circuits,
instrumentation, audio, video and optoelectronics.
Easy to get job
Electrical
Engineering students find their first job honestly easily because most
employers search for fresh minds with good training. They are glad to get young
people they can change to their own specific needs and turn them into experts. This
is also the reason why Electrical Engineers are the most valued on the job in
the world.
Why to choose Electrical engineering
The
Bureau of Labor Statistics reports the median annual wage for electrical
engineers was $91,410 in 2014.
Why to choose Electrical Engineering?
Electrical
engineers study and apply the physics and mathematics of electricity,
electronics, and electromagnetism to both large and small scale systems to
process information and transmit energy. To do this, electrical engineers
design computers, electronic devices, communication systems, test equipment,
electric power networks, and improve systems through problem solving techniques.
Scope of Electrical Engineering
As
an electrical engineer, you can work in the offices, labs, or industrial plants
of various industries including: the manufacturers of electrical components and
computer equipment, industrial machinery, medical and scientific instruments,
transportation, communication, computer related sectors, the federal
government, electric utility and engineering consulting firms.
Career of Electrical Engineering
Electrical
engineers design, develop, test and supervise the manufacturing of electrical
equipment, such as electric motors, radar and navigation systems,
communications systems and power generation equipment,
An electrical
engineer is someone who designs and develops new electrical systems solves
problems and tests equipment. They study and apply the physics and mathematics
of electricity, electromagnetism and electronics to both large and small scale
systems to process information and transmit energy. They work with all
kinds of electronic devices, from the smallest pocket devices to large
supercomputers.
Electrical engineering basics
Basics of electricity generation technologies including conventional
& non-conventional ways of electricity generation. Knowledge of different
factors e.g. load factor, demand factor.
·
Laws, theorems
& basic rules
·
Circuit analysis: Ohm’s law, Kirchhoff’s
Current & Voltage law, Maximum Power Transfer Theorem. Electro-magnetism
& electromagnetic induction: Dot & cross convention, right hand thumb
rule, Fleming’s left & right hand rules, types of emf induction.
·
Concept of impedance &
admittance.
·
Types of powers i.e. Active, Reactive, Apparent & complex power.
·
Basics of single phase & three phase connections such
as star & delta connections, voltage & current relations in balanced
star & delta connected loads.
·
Basic definition of electricity
·
Deep knowledge of Electrons
·
Mathematics is compulsory
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2
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Engineering
Design
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2
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Engineering Modeling
& Problem Solving
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4
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Engineering
Design, Modeling & Problem Solving [1]
|
And 4 units for
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Course Code
|
Units
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Course Title
|
|
[ MATH1051
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2
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Calculus &
Linear Algebra I [2]
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[ or
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||
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[ MATH1071
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2
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Advanced
Calculus & Linear Algebra I
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[ MATH1052
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2
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Multivariate
Calculus & Ordinary Differential Equations
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[ or
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[ MATH1072
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2
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Advanced
Multivariate Calculus & Ordinary Differential Equations
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And 4 units for
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Course Code
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Units
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Course Title
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2
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Introduction to
Software Engineering
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2
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Introduction to Electrical
Systems
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Year 1 or Year 2, Semester 1
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Course Code
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Units
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Course Title
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2
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Electromagnetism
and Modern Physics
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Year 2, Semester 1
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Course Code
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Units
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Course Title
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2
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Introduction to
Computer Systems
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2
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Electromechanics
& Electronics
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2
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Advanced
Calculus and Linear Algebra II
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Year 2, Semester 2
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Course Code
|
Units
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Course Title
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2
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Computer Systems
Principles and Programming
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2
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Circuits,
Signals & Systems
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2
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Team Project I
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1
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Analysis of
Ordinary Differential Equations
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1
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Probability
Models for Engineering & Science
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Year 3, Semester 1
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Course Code
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Units
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Course Title
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2
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Embedded Systems
Design & Interfacing
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2
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Signals, Systems
& Control
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2
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Electronic
Circuits
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Year 3, Semester 2
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Course Code
|
Units
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Course Title
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2
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Team Project II
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2
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Fundamentals of
Electromagnetic Fields & Waves
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2
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Electrical
Energy Conversion & Utilisation
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Year 4
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Course Code
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Units
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Course Title
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[ ENGG4801
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4
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Thesis Project [1]
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[ or
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[ ENGG4802
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4
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Thesis Project [1]
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[ or
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||
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[ ENGG4805
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4
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Thesis Project [3]
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Year 4, Semester 2
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Course Code
|
Units
|
Course Title
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2
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Professional
Practice and the Business Environment
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Part B - Advanced
Electives
|
Course Code
|
Units
|
Course Title
|
|
2
|
Photonics
|
|
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2
|
Microwave
Engineering
|
|
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2
|
Communication
Systems
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|
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2
|
Digital System
Design
|
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2
|
Power Systems
Analysis
|
|
|
2
|
Advanced
Electronic & Power Electronics Design
|
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2
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Digital Signal
Processing
|
|
|
2
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Image Processing
and Computer Vision
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2
|
Control
Engineering 1
|
|
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2
|
Robotics &
Automation
|
Part C - Coverage
Electives
|
Course Code
|
Units
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Course Title
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2
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Machine Learning
|
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2
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Computer
Networks I
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2
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Computer
Networks II
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2
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Programming in
the Large
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2
|
Advanced
Embedded Systems
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2
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Special Topics
in Electrical Engineering 4A [4]
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2
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Special Topics
in Electrical Engineering 4B [4]
|
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2
|
Power System
Protection
|
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2
|
Modern Asset
Management and Condition Monitoring in Power System
|
|
|
2
|
Medical &
Industrial Instrumentation
|
|
|
2
|
Medical Imaging
|
|
|
2
|
Engineering
Mechanics: Statics & Dynamics
|
|
|
2
|
Introduction to
Systems Engineering
|
|
|
2
|
Project
Management
|
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