INTERNATIONAL BURCH UNIVERSITY
Faculty of Engineering and Natural Sciences
Department of Electrical and Electronic Engineering
2014-2015

SYLLABUS
Code Name Level Year Semester
EEE 102 Introduction to Electrical Engineering Undergraduate 1 Spring
Status Number of ECTS Credits Class Hours Per Week Total Hours Per Semester Language
Compulsory 6 2 + 2 919 English

Instructor Assistant Coordinator
Elvisa Bećirović, Research Assistant Abdülhamit Subaşı, Prof. Dr.
no email no email

The course is introduction to fundamentals of electrical engineering - theory and application.

COURSE OBJECTIVE
• Define what electrical engineering is about. Work with SI units, define quantities such as charge, current, voltage, energy and power. Discriminate between passive and active elements, dependent and independent sources. Define circuit analysis through the passive sign convention.
• Basically know some tools and applications in Electrical Engineering.

COURSE CONTENT
Week
Topic

    LABORATORY/PRACTICE PLAN
    Week
    Topic
    1. Welcome to the course
    2. Introduction - Electrostatics, basic definitions
    3. Electrostatics - Electric field, Gauss Law
    4. Kirchoff\'s Laws
    5. Mesh analysis
    6. Node voltage analysis
    7. Thevenin and Norton\'s theorem
    8. RC circuits
    9. Introduction to electromagnetism
    10. Phasor representation of AC quantities
    11. Student\'s project presentations

    TEACHING/ASSESSMENT
    Description
    • Lectures
    • Excersises
    • Presentation
    • Assignments
    Description (%)
    Method Quantity Percentage (%)
    Quiz25
    Homework15
    Project110
    Midterm Exam(s)125
    Final Exam150
    Total: 95
    Learning outcomes
    • Electrostatics
    • Electormagnetism
    • DC circutis
    • AC fundamentals
    TEXTBOOK(S)
    • • Introductory Circuit Analysis, 12th. Edition, R. Boylestad, Pearson. (Main Book)
    • • Electrical Engineering: Principles and Applications, 5th. Edition, Allan R. Hambley

    ECTS (Allocated based on student) WORKLOAD
    Activities Quantity Duration (Hour) Total Work Load
    Lecture (14 weeks x Lecture hours per week)1560900
    Laboratory / Practice (14 weeks x Laboratory/Practice hours per week)15 0
    Midterm Examination (1 week)133
    Final Examination(1 week)133
    Preparation for Midterm Examination144
    Preparation for Final Examination144
    Assignment / Homework/ Project144
    Seminar / Presentation111
    Total Workload: 919
    ECTS Credit (Total workload/25): 37