CURRICULUM
2012-2013
First Year
No.
Subjects
Units
No. of Hours/week
Theory
Tutorial
Practical
2
2
0
2
2
0
EE 101 Mathematics I
EE 102 Fundamental of Electrical Engineering
6
6
EE 103 Principle of Electronics
5
2
1
0
EE 104 Computer Programming
5
1
1
2
EE 105
EE 106
EE 107
EE 108
EE 109
4
4
2
4
2
2
2
0
1
0
0
0
2
0
0
0
0
0
2
3
2
0
0
3
40
16
6
9
Mechanical Engineering
Kurdology
Technical English
Engineering Drawing
Electrical Engineering Lab.
EE 110 Workshop
Total
EE 101: Mathematics I
First Year
Theory:
2
Hours
Units: 6
Tutorials:
2
Hours
Term: Annual
Practical:
0
Syllabi:

Matrices and determinate

Solution of system of linear equation

Plane analytical geometry, Conic section function

Domains, Range, Transcendental functions and their inverse

Hyperbolic functions and their inverse

Derivatives

Application of derivatives

Theories of integration

Methods of integration

Application of definite integration
(Area, Volume, Length of curve, Area of surface of revolution, Moment of
inertia ………etc)
EE 102: Principle of Electronics
First Year
Theory:
2
Hours
Units: 5
Tutorials:
1
Hour
Term: Annual
Practical:
0
Syllabi:
 Atomic Structure
(Atom, Atomic number, Energy level, Valence Electros, Ionization, ElectronVolt, Insulator, Semiconductor, Metal)
 Conduction In Metals and Semiconductors
(Conductivity of Metals, Conductivity of Intrinsic Semiconductors, . Intrinsic
Concentration, Extrinsic Semiconductors, Conductivity of Extrinsic
Semiconductors, Drift and Diffusion Currents, Combined Drift and Diffusion
Currents, Recombination, Carrier Life Time)
 PN-JUNCTION
(Equilibrium of PN Junction, Junction Potential)
 Semiconductor Diode
(Semiconductor Diode Bias, Diode Equation, Resistance Levels, DC Resistance,
AC Resistance, Average Ac Resistance, Diode Equivalent Circuits, Complete
Equivalent Circuit, Practical Equivalent Circuit, Ideal Equivalent Circuit,
Temperature Effects)
 Diode Applications
(Load line Analysis, Diode Approximations, Series Diode Configurations,
Parallel & Series-Parallel Configurations, Half-Wave Rectifier, Full-Wave
Rectifier, Clippers, Clampers, Zener Diode, Special Purpose Diode)
 Bipolar Junction Transistor
(Transistor Bias, Common Emitter Connection, Bipolar Transistor Linear D.C
models, Bipolar Load Lines, Common Base and Common Collector
Connection, Limits of Operation)
 Transistor Biasing Circuits
(Base Bias, Emitter Feedback Bias, Emitter Stabilized Bias, Collector Feedback
Bias, Voltage Divider with Self Bias, Transistor as a Switch)
EE 103: Fundamental Electrical Engineering
First Year
Theory:
2
Units: 6
Tutorials:
2 Hour
Term: Annual
Practical:
Hours
0
Syllabi:
DC Circuits











System of units
Current, Voltage. Resistance ,Ohms law, Power , Energy
Series and parallel circuits.
Kirchhoff’s voltage and current laws.
Voltage and current divider rules.
Voltage source, current source, and source conversion.
Mesh analysis, Nodal analysis.
Bridge network.
Delta-star conversion.
Networks theorems (dc) : Superposition , Thevenin’s , Norton’s
Maximum power transfer.
AC Circuits
 Sinusoidal alternating waveform.
 R, L, C, and Phasor diagram.
 Series and Parallel (ac) Network.
 Mesh analysis (ac), Nodal analysis (ac).
 Delta-star conversion.
 Network theorems (ac): Thevenin’s, Norton, max. Power transfer.
 Power (ac).
 First order ac circuits (RL, RC) circuit.
Electromagnetism
 Magnetic Field, Concept of Magnetic Flux Density
 Permeability
 Reluctance
 Ohm's Law for Magnetic Circuit
 Magnetizing Force, Magnetic Hysteresis, Area of Hysteresis Loop
 Magnetic circuits, Ampere's circuital law
 Series Magnetic circuit, Series-Parallel Magnetic circuit
 Air Gap's
 Leakage Flux and Leakage Coefficient
Electro-Magnetic Induction
 Faraday's Law of Electro-Magnetic induction, Lenz's Law
 Application of Electro-Magnetic induction
 Electric Generators-Electric Motors-Transformers-Sound Waves
 Eddy current Losses
 Self-inductance, Coefficient of Self-inductance
 Energy stored in Magnetic Field
 Mutual inductance, Coefficient of Mutual-inductance
 Coefficient of coupling
 Inductances in series, Inductances in parallel
Electrostatics:







Static Electricity, Laws of Electrostatics
Electric Field
Electrostatic induction
Electric Flux and Faraday's Tubes
Field Strength
Electric Flux Density
Electric Potential, Energy, Potential and Potential Differences
EE 104: Computer Programming
First Year
Theory:
1 Hour
Units: 4
Tutorials:
Term: Annual
Practical:
0
2 Hours
Syllabi:
Theory:

Computer Structure: H/W, S/W, OS, Users

Computer History and Numbers

Algorithms and Flow charts

Programming : Symbols, Constant and Variables, Operations

Input-Output commands, Equation assignments, Mathematical functions.

Loops: Conditional and Unconditional Jumping, loops.

Subroutine and Functions

Vectors and Matrices.

Files

C → C++ → C#
Practical:

The Computer, MS-DOS, Windows Operating System

Application of the Programs and Commands
EE 105: Mechanical Engineering:
First Year
Theory:
2
Units: 5
Tutorials:
1
Term: Annual
Practical:
0
Syllabi:
Static:







Units system, Force system, parallelogram law
Forces components , resultant of coplanar forces
Components of forces in space , moment of a force, moment of
couples
Equilibrium , free body diagram, friction
Centroids and centers of gravity , centroids of area
Moment of inertia
Second moment of area by integration radius of gyration.





Kinetics of particles, rectilinear motion, curvilinear motion
Rectangular components curvilinear motion
Normal and tangential component of acceleration ,
Kinetics Force , mass and acceleration,
Kinetics of particles Newton’s second law.
Dynamics:
Strength of materials:
 Hook’s law
 Tension and compression stress,
 thin –walled cylinders and spheres,
 combined stress shear and normal stress
 Stresses in beams.
Thermodynamic:

Concepts and Definitions

Types of Energy Transfer(Work, Heat)

Conservation of energy (first law of thermodynamic)

Restriction on energy(Second law of thermodynamic)

Entropy and its applications

Thermodynamic Cycles
Hours
Fluid Mechanics:

Concepts and Definitions

Kinds of Fluids

Newton’s law of Viscosity

Velocity distribution for laminar flow in pipes

Velocity distribution for turbulent flow in pipes

Flow between two parallel plates

Flow through an Annulus

Fluid Dynamic

Pressure drop function of shear stress of pipe wall
EE 106: Kurdology
First Year
Theory:
2
Units: 4
Tutorials:
0
Term: Annual
Practical:
0
Syllabi:

The origin of Kurds

Kurds history literature in foreign literature

Kurds in medieval centuries Kurds in modern history

Kurdish geography

Kurdish language and dialects

Beginnings of Kurdish literature

Kurdish poetry

Journals and Kurdish magazines

Kurdish political organization

Kurdish language in Latin letters.


EE 107: Technical English
Hours

First Year
Theory:
0 Hours

Units: 2
Tutorials:
2

Term: Annual
0




Technical Terminology
Texts in Electrical Engineering Topics
Scientific essays and reports
Conversations
Practical:
EE 108: Engineering Drawing
First Year
Theory:
0
Units: 2
Tutorials:
0
Term: Annual
Practical:
3 Hours
Syllabi:

Instruments used in Engineering Drawing

Layout of Drawing Sheet, Lettering and its types

Types of lines,

Dimensioning

Engineering Scales, Types of Scale

Geometrical Constructions
(Dividing the line into any number of equal parts, dividing a given angle into
even number of division, Draw of an arc tangential to a line passing through a
point)

Construction of regular polygons

Engineering Curve , Terminology, Types, Applications

Methods of construction of Ellipse
(Circle method, four centers approximate method)

Method of construction of Parabola

Method of construction of Hyperbola

Projection

Sections

Isometric
EE 109: Electrical Engineering Laboratory
First Year
Theory:
0
Units: 2
Tutorials:
0
Term: Annual
Practical:
3 Hours
Syllabi:
1. Electric circuit, laboratory meters and power supply:
2. Ohm’s law.
 Dependence of the current I on the voltage V, with constant resistance R.
 Dependence of the current I on the resistance R, with constant voltage V.
3. Electric measuring instruments.
 Current and voltage error measuring.
 Voltage divider: Unloaded voltage divider, loaded voltage divider.
4. Electric power:
 Comparison between two current using equipments.
 Dependence of the power P on the current I and the voltage V.
5. Electric Circuit Connection:
 Series connections with ohmic resistor, two bulbs and different current.
 Parallel connection with ohmic resistors and with other current.
 Combined electric connection.
6. Voltage Source Connection:
 Series connection of voltage sources.
 Parallel connection of voltage sources.
7. Characteristic of R, L, C in AC circuits.
8. Series and Parallel RLC Circuits.
9. Pulse Respond of RC Differentiator: Capacitor (Charging &discharging time).
10. Diodes: Diode in a direct and in an alternating current circuit, Threshold voltage
VS, Light emitting diodes (Determination of the dropping resistor RV).
11. Half-wave rectifier: Alternating voltage, Half-wave rectification, Half-wave
rectification with filter.
12. Full-wave rectifier: Alternating voltage, Full-wave rectification, Full-wave
rectification with filter.
13. Clipping circuit (series and parallel).
14. Half-wave voltage doubler.
15. Full- wave voltage doubler.
16. Electromagnetisem1.
17. Electromagnetisem2.
EE 110: Workshop
First Year
Theory:
0
Units: 2
Tutorials:
0
Term: Annual
Practical:
3 Hours
Syllabi:

The Safety Factor

Simple Electric circuit

Series and Parallel Connection

Control of single Load using two Distant switches

Socket, Plug, and multi-pole switch

Wire resistance

Protection: Electrical Shock, Earthing, Fuse, Circuit Breaker

Fluorescent Lighting

Contactor and Change Over Switch

Distribution Board

Kilowatt-Hours meter

Test of Electronic components: Resisters, Diodes, Transistors, Boards.