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Lovely Professional University,Punjab

Course No Cours Title Course Planner Lectures Tutorial Practical Credits

ECE207 ELECTROMAGNETIC FIELD THEORY 15798 :: Ravi Kumar Sharma 3 1 0 4

Sr. No. (Web adress) (only if relevant to the courses) Salient Features

8 http://nptel.iitm.ac.in/courses/Webcourse-contents/IIT-%20Guwahati/em/index.htm

Lecture notes - electrostatics

9 http://nptel.iitm.ac.in/video.php?courseId=1009&p=1 Video lectures of electromagnetic fields


Lecture notes on Maxwell's equations


Lecture notes of plane waves

Sr No Jouranls atricles as compulsary readings (specific articles, Complete reference)

5 http://ieeexplore.ieee.org/book/047173277X.01.pdf

6 http://en.wikipedia.org/wiki/Electromagnetism

7 http://llovesumi.tripod.com/menu.htm

Elements of Electromagnetic by Matthew N.O. Sadiku, Oxford Univ. Press, 3rd ed., 20011Text Book:

Other Specific Book:Electromagnetics By John D. Kraus, Mcgraw-Hill, 20082

Electromagnetic Waves and Radiating Systems by E.C. Jordan and K.G. Balmain, PHI, 2nd Edition, 20083

Electromagnetic field and waves By K.D Prasad4

Relevant Websites

Other Reading

Format For Instruction Plan [for Courses with Lectures and Tutorials

1 Approved for Spring Session 2011-12

12 http://www.pha.jhu.edu/~javalab/spherical/spherical.html demonstration coordinates system

13 http://hyperphysics.phy-astr.gsu.edu/hbase/phyopt/polclas.html

demonstration of polarization

14 http://www.fourier-series.com/rf-concepts/flash_programs/SmithChart/smithchart.html

demonstration of smith chart (tutorial of smithchart)

15 http://www.falstad.com/mathphysics.html demonstration of TE and TM waves

Detailed Plan For Lectures

Week Number Lecture Number Lecture Topic Chapters/Sections of Textbook/other reference

Pedagogical tool Demonstration/case study/images/anmation ctc. planned

Part 1Week 1 Lecture 1 Introduction to coordinate system ->Reference :1,Ch1/1.1

-1.4http://www.pha.jhu.edu/~javalab/spherical/spherical.html

Lecture 2 Differential Length, area and volume ->Reference :1,Ch2/2.1-2.2

Lecture 3 integrals: line, surface and volume ->Reference :1,Ch2/2.3

Week 2 Lecture 4 Del operator and gradient ->Reference :1,Ch2/2.4-2.5

Lecture 5 Divergence and Divergence theorem ->Reference :1,Ch2/2.6

Lecture 6 Curl and stoke's theorem ->Reference :1,Ch2/2.7

Week 3 Lecture 7 Poisson's equation and Laplace's equation ,Permittivity, electric flux density

->Reference :1,Ch5/5.2Ch3/3.4

Lecture 8 Gauss law,continuity equation and relaxation time ->Reference :1,Ch3/3.5 http://nptel.iitm.ac.in/video.php?courseId=1009&p=1

Lecture 9 Boundary conditions ->Reference :1,Ch4/4.8

Week 4 Lecture 10 Boundary conditions ->Reference :1,Ch4/4.8

Part 2Week 4 Lecture 11 Permeability, Magnetic Flux Density, Faraday's

laws, The Biot-Savart Law->Reference :1,Ch6/6.2/6.5/8.2


Week 4 Lecture 12 Permeability, Magnetic Flux Density, Faraday'slaws, The Biot-Savart Law

->Reference :1,Ch6/6.2/6.5/8.2

Week 5 Lecture 13 Ampere's circuit law and its application ->Reference :1,Ch6/6.3-6.4(c)

Lecture 14 Inconsistency of ampere's law, Analogy betweenelectric and magnetic circuits

->Reference :1,Ch8/8.4/ Ch6/6.1

Lecture 15 Plane wave, Uniform plane wave, Wave in freespace

->Reference :4,CH6/6.11

http://nptel.iitm.ac.in/video.php?courseId=1009&p=4

Week 6 Lecture 16 Solutions for free-space conditions ->Reference :4,CH6/6.12

Lecture 17 Wave equations and its solution for different media(Lossy dielectric, lossless dielectric, free space,good conductors)

->Reference :1,Ch9/9.2-9.5

Lecture 18 Wave equations and its solution for different media(Lossy dielectric, lossless dielectric, free space,good conductors)


Week 7 Lecture 19 Wave equations and its solution for different media(Lossy dielectric, lossless dielectric, free space,good conductors)


Lecture 20 Power and poynting vector,polarization ->Reference :1,Ch9/9.6 http://hyperphysics.phyastr.gsu.edu/hbase/phyopt/polclas.html

Lecture 21 Reflection of plane wave at normal incidence ->Reference :1,Ch9/9.7

MID-TERMPart 3

Week 8 Lecture 22 Transmission line parameters, Transmission lineequation,

->Reference :1,Ch10/10.1-10.3

Lecture 23 Transmission line parameters, Transmission lineequation,

->Reference :1,Ch10/10.1-10.3

Lecture 24 Reflection coefficients (voltage and current). InputImpedance, SWR, and Power,

->Reference :1,Ch10/10.4

Week 9 Lecture 25 The Smith Chart ->Reference :1,Ch10/10.5

http://www.fourierseries.com/rfconcepts/flash_programs/SmithChart/smithchart.Html

Lecture 26 Some Applications of Transmission Lines ->Reference :1,Ch10/10.6


Week 9 Lecture 27 Micro strip Transmission Lines ->Reference :1,Ch10/10.7

Week 10 Lecture 28 Waves between parallel planes. TE and TM wavesand their characteristics. TEM waves.


Part 4Week 10 Lecture 29 TE and TM waves and their characteristics. TEM

waves.->Reference :4,Ch9/9.1-9.2

Lecture 30 Velocities of propagation, wave impedance ->Reference :4,Ch9/9.2/9.4

Week 11 Lecture 31 Rectangular wave guides,Transverse Magnetic (TM)Modes, Transverse Electric (TE) Modes

->Reference :1,CH11/11.2-11.4

Lecture 32 Transverse Magnetic (TM) Modes, TransverseElectric (TE) Modes

->Reference :1,CH11/11.3-11.4

Lecture 33 Transverse Magnetic (TM) Modes, TransverseElectric (TE) Modes,

->Reference :1,CH11/11.3-11.4

http://www.falstad.com/mathphysics.html

Week 12 Lecture 34 Wave Propagation in the Guide, Group velocity andphase velocity

->Reference :4,Ch9/9.2.5

http://www.falstad.com/mathphysics.html

Lecture 35 Power Transmission and Attenuation ->Reference :1,Ch11/11.6

Lecture 36 Waveguide Resonators ->Reference :1,Ch11/11.7

Spill OverWeek 13 Lecture 37 Waveguide Current and Mode Excitation ->Reference

:1,Ch11/11.4

Lecture 38 revision

Details of homework and case studies Homework No. Objective Topic of the Homework Nature of homework

(group/individuals/field work

Evaluation Mode Allottment / submission

Week

Homework 1 To study the basics of field theory

VECTOR ANALYSIS,INTEGRAL THEOREMS,INTRODUCTION TO ELECTROSTATICS

Individual HOMEWORK 2 / 3

TEST1 2 To study the basics of field theory

Numerical Problems on:TRANSMISSION LINE,GUIDED WAVES and RECTANGULAR WAVEGUIDES

Individual test1 10 / 11


TEST1 1 To study the basics of electromagnetic wave propagation

MAGNETOSTATIC FIELDS,ELECTROMAGNETIC WAVE PROPAGATION

Individual test1 5 / 6

Scheme for CA:out of 100*Component Frequency Out Of Each Marks Total Marks

Homework,Test 2 3 10 20

Total :- 10 20

* In ENG courses wherever the total exceeds 100, consider x best out of y components of CA, as explained in teacher's guide available on the UMS

Plan for Tutorial: (Please do not use these time slots for syllabus coverage)Tutorial No. Lecture Topic Type of pedagogical tool(s) planned

(case analysis,problem solving test,role play,business game etc)

Tutorial 1 Differential Length, area and volume Problem solving

Tutorial 2 line, surface and volume, gradient, divergence and curl Problem solving

Tutorial 3 Divergence theorem, stoke theorem Problem solving

Tutorial 4 Poisson's equation and Laplace's equation Problem solving

Tutorial 5 boundary conditions Problem solving

Tutorial 6 The Biot-Savart Law, Ampere circuit law Problem solving,Test

Tutorial 7 Lossy dielectric, lossless dielectric, free space Problem solving

After Mid-TermTutorial 8 Power and poynting vector, Reflection of plane wave

atLossy dielectric, lossless dielectric, free space, goodnormal incidence.

Problem solving

Tutorial 9 "Transmission line parameters, Transmission lineequation, reflection coefficients (voltage and current)"

Problem solving

Tutorial 10 Input Impedance, SWR, and Power, The Smith Char Problem solving


Tutorial 11 "Transverse Magnetic (TM) Modes, Transverse Electric(TE) Modes, Wave Propagation in the Guide"

Problem solving,Test

Tutorial 12 "Power Transmission and Attenuation,WaveguideResonators."

Problem solving


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