DOC/LP/01/28.02.02
LESSON PLAN
LP Rev. No: 00
Sub Code: EE6302
Date: 26.06.14
Sub Name: Electromagnetic Theory
Page 1 of 5
Unit : I
Branch : EEE
Semester : III
Unit syllabus:
1. INTRODUCTION
9
Sources and effects of electromagnetic fields – Co-ordinate systems - Vector fields – Gradient,
Divergence and Curl – theorems and applications – Coulombs law – Electric Field Intensity –
Field due to continuous and discrete charges – Gauss’s law and applications
Objective
To impart knowledge on sources and effects of electrostatics, different co-ordinate systems,
Coulombs law and Gauss’s law and their applications.
BB&LCD
3.
Time
Books
Allocatio
Topics to be covered
Referr
n
ed
(min)
Introduction to Electromagnetic fields-sources
50
1,2,3
and effects, Co-ordinate systems- Cartesian
Different co-ordinate systems – Cylindrical
50
1,2,3
and Spherical co-ordinate systems
Vector fields – Gradient, Divergence
50
1,2,3
4.
Vector fields – Curl of Vector
50
1,2,3
BB&LCD
5.
Divergence theorem, Stoke’ theorem
50
1,2,3
BB&LCD
6.
Problems – Divergence and Stokes theorem
50
1,2,3
BB&LCD
7.
Coulombs law, Electric Field Intensity
50
1,2,3
BB&LCD
8.
Field due to continuous and discrete charges
50
1,2,3
BB&LCD
9.
50
1,2,3
BB&LCD
50
1,2,3
BB&LCD
11.
Problems – Coulombs law, Electric field
intensity
Problems – Coulombs law, Electric field
intensity
Gauss’s law and applications
50
1,2,3
BB&LCD
12.
Gauss’s law and applications
50
1,2,3
BB&LCD
13.
Problems – Gauss’s law
50
1,2,3
BB&LCD
Lectu
re
No
1.
2.
10.
Teaching
Method
BB&LCD
BB&LCD
DOC/LP/01/28.02.02
LESSON PLAN
Sub Code: EE6302
LP Rev. No: 00
Sub Name: Electromagnetic Theory
Date: 26.06.14
Unit : II
Branch : EEE
Semester : III
Page 2 of 5
Unit syllabus:
2. ELECTROSTATICS
12
Electrical potential – Electric field and equipotential plots – Uniform and non-uniform field
utilization factor - electric field in free space, conductors, dielectric – dielectric polarization. –
Dielectric strength - Electric field in multiple dielectrics – boundary conditions, Poisson’s and
Laplace’s equations – Capacitance – Energy density – Applications.
Objective
Concepts of electrostatics, electrical potential, energy density and their applications.
Lecture
No
14.
15.
16.
17.
18.
19.
20.
21.
22.
23.
24.
25.
26.
Time
Books
Allocatio
Topics to be covered
Referr
n
ed
(min)
Electric potential, V related problem at
50
1,2,3
different coordinates
Problems - Electric potential
50
1,2,3
Equipotential plots
50
1,2,3
Uniform and non-uniform field utilization
50
1,2,3
factor
Dielectric Polarization , Dielectric Strength
50
1,2,3
Boundary condition of electric Field for
50
1,2,3
Different dielectrics
Problems – Boundary conditions
50
1,2,3
Laplace’ and Possion’s equation – derivation
50
1,2,3
and problems
Problems – Laplace and Poisson’s Equations
50
1,2,3
Capacitance –single spherical shell, two
50
1,2,3
spherical shells with multi dielectric
materials
Problems - Capacitance
50
1,2,3
Energy , Energy density – Problems
50
1,2,3
Energy density – Problems
50
1,2,3
CAT 1
Teaching
Method
BB&LCD
BB&LCD
BB&LCD
BB&LCD
BB&LCD
BB&LCD
BB&LCD
BB&LCD
BB&LCD
BB&LCD
BB&LCD
BB&LCD
BB&LCD
DOC/LP/01/28.02.02
LESSON PLAN
Sub Code: EE6302
LP Rev. No: 00
Sub Name: Electromagnetic Theory
Date: 26.06.14
Unit : III
Branch : EEE
Semester :III
Page 3 of 5
Unit syllabus:
3. MAGNETOSTATICS
9
Lorentz force, magnetic field intensity (H)– Biot Savart’s Law – Ampere’s Circuital Law –
Magnetic field due to straight conductors, circular loop, infinite sheet of current –
Magnetic flux density (B) – B in free space, conductor, magnetic materials.
Magnetization-Magnetic field in multiple media – Boundary conditions – Scalar and
vector potential – Poisson’s equation - Magnetic force – Torque – Inductance – Energy density –
– Applications.
Objective:
To impart knowledge on concepts of magnetostatics, magnetic flux density, scalar and vector
potential and their applications.
Lecture
No
27.
28.
29.
30.
31.
32.
33.
34.
35.
Topics to be covered
Introduction to magnetostatics, Lorentz law
of force
Derivation ‘H’, ‘B’ of finite and infinite
length of conductor using Biot-savart law.
Tutorial Problems
Derivation of ‘H’ and ‘B’ due to infinite
sheet & Circular loop, Square loop etc
Ampere’s law and applications
Tutorial problems
Boundary conditions of magnetic field in
multiple media
Vector and scalar potential, Poisson’s
equation
Magnetic force and torque of rectangular
loop conductor for various current direction
Time
Allocation
(min)
Books
Referre
d
Teaching
Method
50
1,2,3
BB&LCD
1,2,3
BB&LCD
50
50
1,2,3
1,2,3
BB&LCD
BB&LCD
50
50
50
1,2,3
1,2,3
1,2,3
BB&LCD
BB&LCD
BB&LCD
50
1,2,3
BB&LCD
50
1,2,3
BB&LCD
50
36.
Tutorial problems
50
1,2,3
BB&LCD
37.
Derivation of inductance – Transmission
lines, self inductance
50
1,2,3
BB&LCD
38.
Magnetic circuits and Energy density
50
1,2,3
BB&LCD
39.
Tutorial problems
50
1,2,3
BB&LCD
DOC/LP/01/28.02.02
LESSON PLAN
LP Rev. No: 00
Sub Code: EE6302
Date: 26.06.14
Sub Name: Electromagnetic Theory
Unit : IV
Branch : EEE
Page 4 of 5
Semester : III
Unit syllabus:
4. Electro Dynamic Fields:
Magnetic circuits - Faraday’s law – transformer and motional EMF, Displacement current –
Maxwell’s equations (differential and integral forms) – Relation between field theory and circuit
theory - Applications.
Objective: To impart knowledge on electrodynamic fields, Faraday’s laws, Induced emf and
their applications.
Lecture
No
40.
41.
42.
43.
44.
45.
46.
47.
48.
49.
50.
Time
Allocation
(min)
Books
Referred
Teaching
Method
Introduction to Electrodynamics fields,
Faraday’s law
Derivation –induced EMF , transformer and
motional EMF
Tutorial problems
Forces and Energy in quasi-stationary
Electromagnetic fields
Tutorial problems
50
1,2,3
BB&LCD
50
1,2,3
BB&LCD
50
50
1,2,3
1,2,3
BB&LCD
BB&LCD
50
1,2,3
BB&LCD
Maxwell’s Equation –Differential form
Maxwell’s Equation- integral form
Current, current density ,displacement and
conduction current
Tutorial problems
Relation Between Field theory and circuit
theory
Tutorial problems
CAT 2
50
50
50
1,2,3
1,2,3
1,2,3
BB&LCD
BB&LCD
BB&LCD
50
50
1,2,3
1,2,3
BB&LCD
BB&LCD
50
1,2,3
BB&LCD
Topics to be covered
DOC/LP/01/28.02.02
LESSON PLAN
LP Rev. No: 00
Sub Code: EE6302
Date: 26.06.14
Sub Name: Electromagnetic Theory
Unit : V
Branch : EEE
Page 5 of 5
Semester : III
Unit syllabus:
5. ELECTROMAGNETIC WAVES
Electromagnetic wave Generation and equations – Wave parameters; velocity, intrinsic
impedance, propagation constant – Waves in free space, lossy and lossless
dielectrics, conductors – skin depth, Poynting vector – Plane wave reflection and
refraction – Standing wave - Applications
9
Objective:
To impart knowledge on concepts of Electromagnetic waves and pointing vector.
Lecture
No
51.
52.
53.
54.
55.
56.
57.
58.
59.
60.
61.
62.
Topics to be covered
Introduction to Electromagnetic Waves
Derivation of Electromagnetic Wave
Equation for different medium –polar form
Derivation of Electro Magnetic Wave
equation for different medium –general
form
Wave parameters and Derivation
Wave Parameters and related problems
Wave equation in different medium
Tutorial problems
Skin depth of conductors, Poynting vector
and poyntiong theorem
Plane Wave Reflection and refraction
Transmission lines, line equation , Input
impedances
Standing wave radio and power
Tutorial problem
CAT 3
Time
Allocation
(min)
Books
Referred
Teaching
Method
50
50
1,2,3
1,2,3
BB&LCD
BB&LCD
50
1,2,3
BB&LCD
50
50
50
50
50
1,2,3
1,2,3
1,2,3
1,2,3
1,2,3
BB&LCD
BB&LCD
BB&LCD
BB&LCD
BB&LCD
50
50
1,2,3
1,2,3
BB&LCD
BB&LCD
50
50
1,2,3
1,2,3
BB&LCD
BB&LCD
DOC/LP/01/28.02.02
Course Delivery Plan:
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C
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Units
TEXT BOOKS:
1 Matthew. N.O. Sadiku, “Elements of Electromagnetics”, Fourth Edition, Oxford University
Press, First Indian Edition 2009.
2. Ashutosh Pramanik, “Electromagnetism – theory and application,” Prentice Hall
of India Private Ltd., New Delhi, 2nd Edition 2009.
3. K.A. Gangadhar, P.M. Ramanathan, ‘Electromagnetic theory (including Antennas and wave
propagation, 16th Edition, Khanna Publications 2007.
REFERENCES:
1. J.A.Edminister, “Schaum’s Outlines of Electromagnetics”, Third Edition, (Schaum’s Outline
series), Tata Mc Graw hill 2010.
2. William H.Hayt Jr. and John A Buck “Engineering Electromagnetics”, Tata McGraw Hill 8th
Revised Edition, 2011.
3. Kraus and Fleisch “Electromagenetics with Applications”, McGraw Hill International
Editions, 5th Edition 2010.
4. Bhag Singh Guru and Huseyin R. Hiziroglu, “Electromagnetic Field Theory Fundamentals”,
Cambridge University Press, Second Revised Edition, 2009.
Signature
Name
Designation
Date
Prepared by
Approved by
Dr.Sudhakar K.Bharatan
Ms S.Sumalatha
ASP and AP/EE
26.06.14
Dr.KR.Santha
Prof & HOD / EE
26.06.14