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PEEE: Theory syllabus
PEEE Theory syllabus(in .docx extension)
FILENAME: EEE106.docx
SCHOOL OF ENGINEERING AND TECHNOLOGY
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Electrical & Electronics Engineering
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OPERATIONAL FROM (I & II TERM)
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FOR STUDENTS ADMITTED STARTING
(2013-2014)
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1
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Course No.
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EEE106
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2
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Course Title
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Principles of Electrical & Electronics Engineering (C)
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3
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Credits
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4
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4
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Contact Hours (L-T-P)
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(3-1-0)
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5
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Course Objective
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To provide students
an understanding of fundamentals of electrical and electronics engineering.
To develop basic understanding of D.C. and AC circuits, magnetic circuits and
electrical power. To provide knowledge of transformers, rotating machines,
electrical measuring instruments, diodes and transistors.
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6
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Course Outcomes
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On a successful completion of this course students will be able to
1. know and apply various network theorems.
2. connect electric circuits, and able to use electric instruments to
perform experiments.
3. name various parameters of electrical quantities and depict their
phasor representation.
4. identify various types of generating stations and demonstrate their
block diagram.
5. describe the transmission and distribution of electrical power.
6. relate various magnetic parameters with analogous electrical
quantities.
7. explain working of transformer, their construction details and to
calculate the efficiency of transformer.
8. define working of different rotating machines and to sketch their
characteristics.
9. solve basic numeric problems related
to electrical machines.
10. compare different rotating machines
and to analyse their applications.
11. explain working of different
electrical measuring instruments and to categorize them on the basis of their
application.
12. differentiate among conductors,
insulators and semiconductors and to compare between intrinsic and extrinsic
semiconductors.
13. demonstrate the formation of p-type and n-type semiconductors, diodes
and BJT.
14. design half-wave and full-wave rectifier circuits using semiconductor
diodes and describe their working.
15. sketch input and output characteristics of BJT and know to use it as
an amplifier and as a switch.
16. identify different logic gates and to describe their truth tables.
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7
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Outline syllabus:
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7.01
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EEE106.A
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Unit A
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Electrical Circuits and Power
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7.02
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EEE106.A1
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Unit A Topic 1
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Series, parallel and series-parallel
circuits, Voltage and current division rules, Kirchhoff’s laws, Node voltage and mesh
current methods of circuit analysis, Star-delta and delta-star transformation,
Network theorems (Thevenin’s Theorem, Norton’s Theorem, Superposition
Theorem, Maximum Power Transfer theorem)
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7.03
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EEE106.A2
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Unit A Topic 2
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Sinusoidal Signal and its significance,
Average, RMS and peak value of sinusoidal signals, Phasor Representation, Series
and parallel combination of inductor, capacitor and resistor.
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7.04
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EEE106.A3
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Unit A Topic 3
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Introduction to 3-phase generation of
electrical power, Principles of thermal, hydro and nuclear generation,
Introduction to transmission and distribution of electrical power.
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7.05
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EEE106.B
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Unit B
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Magnetic Circuits and Transformer
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7.06
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EEE106.B1
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Unit B Topic 1
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Comparison of magnetic and electric
circuits
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7.07
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EEE106.B2
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Unit B Topic 2
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Working principles of transformer, Constructional
details of transformer, EMF equation of transformer
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7.08
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EEE106.B3
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Unit B Topic 3
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Efficiency of transformer, Power and
distribution transformer and difference between them.
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7.09
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EEE106.C
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Unit C
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Rotating Machines
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7.10
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EEE106.C1
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Unit C Topic 1
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Working principle, construction and
EMF equation of DC Generator, Working principles, Torque equation and
characteristics of shunt, series and compound DC motor
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7.11
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EEE106.C2
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Unit C Topic 2
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Working principle, Construction and
torque-slip characteristic of 3-phase induction motor. Working principle of
1-phase induction motor and its classification based on starting principles (Split
phase).
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7.12
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EEE106.C3
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Unit C Topic 3
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Working principle of synchronous machines,
Salient pole and cylindrical rotor types
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7.13
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EEE106.D
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Unit D
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Electrical Measuring Instruments
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7.14
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EEE106.D1
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Unit D Topic 1
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Working principle and construction of Permanent Magnet Moving Coil and
Moving Iron voltmeter and ammeter.
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7.15
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EEE106.D2
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Unit D Topic 2
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Working principle of Electrodynamometer type wattmeter
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7.16
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EEE106.D3
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Unit D Topic 3
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Working Principle of Induction type energy meter.
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7.17
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EEE106.E
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Unit E
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Semiconductor Electronics
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7.18
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EEE106.E1
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Unit E Topic 1
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Metals, semiconductors and insulators,
Electrons and holes in intrinsic semiconductor, Donor and acceptor impurities,
N-type and P-type semiconductors, PN junction diode and its V-I
characteristics, Rectifiers :-Half wave and Full wave ( Unfiltered output)
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7.19
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EEE106.E2
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Unit E Topic 2
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Construction, working principle and
input-output characteristic of BJT, BJT as CE amplifier, and as a switch.
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7.20
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EEE106.E3
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Unit E Topic 3
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Introduction to logic gates and their
truth tables.
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8
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Course Evaluation
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8.1
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Course work: 30 marks
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8.11
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Attendance
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none
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8.12
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Homework
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10 assignments, no weight
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8.13
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Quizzes
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7 best quizzes (based on assignments) in tutorial
hours; 30 marks
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8.14
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Projects
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none
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8.15
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Presentations
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none
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8.16
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Any other
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none
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8.2
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MTE
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one, 20 marks
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8.3
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End-term examination: 50 marks
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9.1
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Text books
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1. V. Del Toro, “Principles of
Electrical Engineering” Prentice Hall, 1968,
2. Robert L Boylestad, “Electronic
Devices and Circuit Theory” Pearson Education, 2009
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9.2
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Other references
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1. A.E. Fitzgerald & A.Grabel
Higginbotham, “Basic Electrical Engineering”, McGraw Hill, 1981
2. M Morris Mano, “ Digital Electronics”, Prentice hall Publication, 2009
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Mapping of Outcomes vs. Topics
Outcome
no. →
Syllabus
topic↓
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1
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2
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3
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4
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5
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6
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7
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8
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9
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10
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11
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12
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13
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14
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15
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16
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EEE106.A1
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X
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X
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X
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|||||||||||||
EEE106.A2
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X
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X
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||||||||||||||
EEE106.A3
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X
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X
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EEE106.B1
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X
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EEE106.B2
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X
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EEE106.B3
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X
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|||||||||||||||
EEE106.C1
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X
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X
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X
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EEE106.C2
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X
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X
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X
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EEE106.C3
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X
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X
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X
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EEE106. D1
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X
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X
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EEE106.D2
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X
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X
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EEE106.D3
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X
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EEE106.E1
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X
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X
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X
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EEE106.E2
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X
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X
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EEE106.E3
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X
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