Lecture 14 Magnetic Domains Induced EMF Faraday’s Law Induction Motional EMF.
EC6403 Lesson Plan EMF 2014
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AC-06 Rev: KONGUNADU COLLEGE OF ENGINEERING AND TECHNOLOGY NAMAKKAL- TRICHY MAIN ROAD, THOTTIAM DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING LESSON PLAN Faculty Name : R.Shankar Subject Code & Name : EC6403 & ELECTROMAGNETIC FIELDS Year / Semester : II/IV Degree & Branch : B.E & Electronics and Communication Engineering Lecture Hours Unit No. of Hrs allotted as per syllabus No. of Hrs Planned Unit – I 9 + 3(T) 9 + 3(T) Unit – II 9 + 3(T) 9 + 3(T) Unit – III 9 + 3(T) 9 + 3(T) Unit – IV 9 + 3(T) 9 + 3(T) Unit – V 9 + 3(T) 9 + 3(T) Total No. of Hrs 45+15(T) 45+15(T) OBJECTIVES: To impart knowledge on the basics of static electric and magnetic field and the associated laws. To give insight into the propagation of EM waves and also to introduce the methods in Computational electromagnetic. To make students have depth understanding of antennas, electronic devices, Waveguides is possible. Sl. No. Propose d Date Propose d Hours Topic(s) Actual Date Actual Hours UNIT I STATIC ELECTRIC FIELD
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Transcript of EC6403 Lesson Plan EMF 2014
AC-06Rev: 0
KONGUNADU COLLEGE OF ENGINEERING AND TECHNOLOGY
NAMAKKAL- TRICHY MAIN ROAD, THOTTIAM
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
LESSON PLANFaculty Name : R.Shankar
Subject Code & Name : EC6403 & ELECTROMAGNETIC FIELDS
Year / Semester : II/IV
Degree & Branch : B.E & Electronics and Communication Engineering
Lecture Hours
Unit No. of Hrs allotted as per syllabus No. of Hrs PlannedUnit – I 9 + 3(T) 9 + 3(T)Unit – II 9 + 3(T) 9 + 3(T)Unit – III 9 + 3(T) 9 + 3(T)Unit – IV 9 + 3(T) 9 + 3(T)Unit – V 9 + 3(T) 9 + 3(T)Total No. of Hrs 45+15(T) 45+15(T)
OBJECTIVES: To impart knowledge on the basics of static electric and magnetic field and the
associated laws. To give insight into the propagation of EM waves and also to introduce the methods in
Computational electromagnetic. To make students have depth understanding of antennas, electronic devices, Waveguides
is possible.
Sl. No.
ProposedDate
ProposedHours
Topic(s)Actual Date
Actual Hours
UNIT I STATIC ELECTRIC FIELD1 17.12.2014 5 Vector Algebra, Coordinate Systems
2 18.12.2014 3Vector differential operator, Gradient, Divergence, Curl, Divergence theorem, Stokes theorem
3 19.12.2014 6 Coulombs law, Electric field intensity
4 20.12.2014 4 Point, Line, Surface and Volume charge distributions
5 22.12.2014 6 Electric flux density, Gauss law and its applications
6 26.12.2014 6 Gauss divergence theorem
7 27.12.2014 4 Absolute Electric potential
8 29.12.2014 6Potential difference, Calculation of potential differences for different configurations.
9 30.12.2014 2 Electric dipole, Electrostatic Energy and
AC-06Rev: 0
KONGUNADU COLLEGE OF ENGINEERING AND TECHNOLOGY
NAMAKKAL- TRICHY MAIN ROAD, THOTTIAM
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Energy density10 31.12.2014 5 Tutorial Problems
11 02.01.2015 6 Tutorial Problems
12 03.01.2015 4 Tutorial Problems
UNIT –II CONDUCTORS AND DIELECTRICS
13 05.01.2015 6 Conductors and dielectrics in Static Electric Field
14 06. 01.2015 2 Current and current density, Continuity equation, Polarization
15 07.01.2015 5 Boundary conditions
16 08. 01.2015 3 Method of images, Resistance of a conductor
17 09. 01.2015 6 Capacitance, Parallel plate, Coaxial capacitors
18 10. 01.2015 4 Spherical capacitors Boundary conditions for perfect dielectric materials
19 11. 01.2015 6 Poisson‟s equation, Laplace‟s equation
20 12.01.2015 6 Solution of Laplace equation
21 13.01.2015 2 Application of Poisson‟s and Laplace‟s equations
22 Extra Hour-Special Class
Tutorial Problems
23 Extra Hour-Special Class
Tutorial Problems
24 Extra Hour-Special Class
Tutorial Problems
TERMINAL EXAM-I (19. 01.2015 to 24.01.2015)
UNIT –III STATIC MAGNETIC FIELDS
25 27.01.2015 2 Biot -Savart Law, Magnetic field Intensity
26 28.01.2015 5 Estimation of Magnetic field Intensity for straight conductors
27 29.01.2015 3 Estimation of Magnetic field Intensity for circular conductors
28 30.01.2015 6 Ampere’s Circuital Law
29 31.01.2015 4 Point form of Ampere’s Circuital Law
30 02.02.2015 6 Stokes theorem
31 03.02.2015 2 Magnetic flux and magnetic flux density
32 04.02.2015 5 The Scalar and Vector Magnetic potentials
AC-06Rev: 0
KONGUNADU COLLEGE OF ENGINEERING AND TECHNOLOGY
NAMAKKAL- TRICHY MAIN ROAD, THOTTIAM
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
33 05.02.2015 3 Derivation of Steady magnetic field Laws
34 06.02.2015 6 Tutorial Problems
35 07.02.2015 4 Tutorial Problems
36 09.02.2015 6 Tutorial Problems
Unit-IV MAGNETIC FORCES AND MATERIALS
37 10.02.2015 2 Force on a moving charge, Force on a differential current element
38 11.02.2015 5 Force between current elements, Force and torque on a closed circuit
39 12.02.2015 3 The nature of magnetic materials, Magnetization and permeability
40 13.02.2015 6 Magnetic boundary conditions involving magnetic fields, The magnetic circuit
41 14.02.2015 4 Potential energy and forces on magnetic materials
42 16.02.2015 6 Inductance, Basic expressions for self and mutual inductances
43 17.02.2015 2 Inductance evaluation for solenoid, toroid
44 Extra Hour-Special Class
Inductance evaluation for coaxial cables and transmission lines
45 Extra Hour-Special Class
Energy stored in Magnetic fields
46 Extra Hour-Special Class
Tutorial Problems
47 Extra Hour-Special Class
Tutorial Problems
48 Extra Hour-Special Class
Tutorial Problems
Terminal Examination –II (18.02.2015 to 24.02.2015)
Unit-V TIME VARYING FIELDS AND MAXWELL’S EQUATIONS
49 25.02.2015 5 Fundamental relations for Electrostatic and Magneto static fields
50 26.02.2015 3 Faraday’s law for Electromagnetic induction
51 27.02.2015 6 Transformers, Motional Electromotive forces
52 03.03.2015 2 Differential form of Maxwell‟s equations
53 04.03.2015 5 Integral form of Maxwell‟s equations
54 05.03.2015 3 Potential functions
55 06.03.2015 6 Electromagnetic boundary conditions
56 07.03.2015 4 Wave equations and their solutions
AC-06Rev: 0
KONGUNADU COLLEGE OF ENGINEERING AND TECHNOLOGY
NAMAKKAL- TRICHY MAIN ROAD, THOTTIAM
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
57 09.03.2015 6 Poynting’s theorem
58 10.03.2015 2 Tutorial Problems
59 11.03.2015 5 Tutorial Problems
60 12.03.2015 3 Tutorial Problems
TEXT BOOKS:
1. William H Hayt and Jr John A Buck, “Engineering Electromagnetics” , Tata Mc Graw-Hill Publishing Company Ltd, New Delhi, 2008
2. Sadiku MH, “Principles of Electromagnetics”, Oxford University Press Inc,New Delhi, 2009
REFERENCES:
1. David K Cheng, “Field and Wave Electromagnetics”, Pearson Education Inc, Delhi, 2004 2. John D Kraus and Daniel A Fleisch, “Electromagnetics with Applications”, Mc Graw Hill
Book Co, 2005 3. Karl E Longman and Sava V Savov, “Fundamentals of Electromagnetics”, Prentice Hall of
India, New Delhi, 2006 4. Ashutosh Pramanic, “Electromagnetism”, Prentice Hall of India , New Delhi, 2006
Faculty Signature Head of the Department
