Welcome EEE304/ETE309 L0 Spring 2016 Welcome
Transcript of Welcome EEE304/ETE309 L0 Spring 2016 Welcome
Welcome
WelcomeTo
Electromagnetic Theory
& Its Applications
(HF Electromagnetic Waves)EEE304/ ETE309 SPRING 2016
Spring 2016
EEE304/ETE309_L0
Course code : EEE304/ ETE 309
Course title : HF Electromagnetic Waves
Lectures : 180 mins/ Week
Credit hours : 3 / Week
Duration : 12 Weeks
Pre-requisite : MAT 303 & 305
Course Instructor : Dr. Mustafa Habib Chowdhury
E-mail: [email protected]
About the courseSpring 2016
ETE-309 / EEE-304 Emergency: 01706-635679
EEE304/ETE309_L0
Learning objectives
To understand the fundamental concepts of high frequency
electromagnetic theory and it’s applications to Electrical,
Electronic and Communication Engineering.
EEE304/ETE309_L0
Spring 2016
Course outlines EEE304/ETE309_L0
Vector Analysis: Scalars and vectors, vector field, vector identity, different
coordinate systems.
Electric fields: Coulomb’s law, electric field intensity, electric flux density,
Gauss’s law, divergence.
Conductors and dielectric materials: Dielectric materials, capacitance,
conducting materials & shielding.
Magnetic fields: Steady state magnetic fields.
Magnetic materials: Magnetic forces, materials and inductance.
Time-varying fields: Maxwell’s equations and their applications.
Electromagnetic waves: Uniform plane wave, TEM wave, polarization.
Transmission lines: Transmission lines from circuit and electromagnetic
viewpoints, types of transmission lines-coaxial cable, waveguides etc.
Electromagnetic radiation: Basics of electromagnetic radiation.
Antenna: Basic electrical properties of antenna, types of antenna-dipole,
array, dish & aperture antennas.
Spring 2016
Text books
1. William H. Hayt, Jr., Engineering Electromagnetics, Tata McGraw-Hill,
5th Ed., New Delhi, 1999.
Recommended reading
1. Fawwaz T. Ulaby, Electromagnetics for Engineers, Peason Education,
2005.
2. David M. Pozar, Microwave Engineering, 3rd Ed., Wiley, 2004.
3. C. G. Cristodoulou and Parveen F. Wahid, Fundamentals of Antennas:
Concept and Applications, Prentice-Hall of India, New Delhi, 2004.
4. Paul, R. Karmel, Introduction to Electromagnetic and Microwave
Engineering, Wiley, 1997.
Text and reference books EEE304/ETE309_L0
Spring 2016
Schedule
Week 1 : Introductory lecture
Week 2 : Regular lecture
Week 3 : Regular lecture
Week 4 : Regular lecture
Week 5 : Regular lecture
Week 6 : Class test + Regular lecture
Week 7 : Regular lecture
Week 8 : Regular lecture
Week 9 : Mid-term exam
Week 10 : Regular lecture
Week 11 : Regular lecture
Week 12: Presentation
Week 13: Final Exam
EEE304/ETE309_L0
Spring 2016
Assessment
Attendance 5%
Class Test 15%
Mid-term Exam 30%
Final Exam 30%
Presentation 20%
______________________________
Total 100%
Spring 2016
EEE304/ETE309_L0
Attendance and Assignment EEE304/ETE309_L0
Attendance:
1 mark will be deducted for every absence. For example, if you
are absent a total of 10 classes during the semester, you will be
given zero in your attendance quota. Be careful about that.
University policy also requires 75% attendance to sit for the
final exam - otherwise may get "F" or "W" grade. .
Assignment:
A number of assignments will to be given during the semester.
Submission of the completed assignment is required on the due
date. The assignments will help you prepare for the class tests
and midterm/final exams.
Spring 2016
Class test
There will be 1 or 2 class tests given in class that will be
taken into account for final grading.
All class tests will be taken on a regular class time, and
after the test, if time permits, there will be regular class for
the rest of the time unless otherwise stated.
There will be taken no extra class test for any reason.
EEE304/ETE309_L0
Spring 2016
Mid-term & final exam
Mid-term exam will be held on the 9th week and the
duration of the mid-term exam will be a maximum of 90
minutes. The syllabus of the mid-term exam will cover the
course materials delivered up to the 8th week from the
beginning.
Final exam will be held according to greenbook schedule
and the duration of the final exam will be a maximum of 90
minutes. The syllabus of the final exam will cover the
course materials from the mid-term exam to the last lecture.
There will be taken no extra test for any reason.
Spring 2016
EEE304/ETE309_L0
Explanation of letter grades EEE304/ETE309_L0
Letter Grade Marks
A 85-100
A- 80-84
B+ 75-79
B 70-74
B- 65-69
C+ 60-64
C 55-59
C- 50-54
D+ 45-49
D 40-44
Spring 2016
Be careful
Eating, Drinking, Smoking, Talking and Gossiping are strictly
prohibited during the class time.
No students are allowed to enter into the class after 5 minutes
from the starting of the class.
Switch off your mobile phone during the class time.
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Spring 2016
Important notes
Test questions will likely to be questions which test the
conception and understanding.
For class test, space utilization is required.
No make-up class test, mid-term or final exam will be taken
for any reason.
Copying, especially during exams, will be treated as
plagiarism. University policies will be strictly enforced in this
regard.
"Disruptive" classroom behavior may be penalized.
EEE304/ETE309_L0
Spring 2016