Electromagnetic Fields detail syllabus for Electronics And Communication Engineering (Ece), 2017 regulation is taken from Anna University official website and presented for students of Anna University. The details of the course are: course code (EC8451), Category (PC), Contact Periods/week (4), Teaching hours/week (4), Practical Hours/week (0). The total course credits are given in combined syllabus.
For all other ece 4th sem syllabus for be 2017 regulation anna univ you can visit Ece 4th Sem syllabus for BE 2017 regulation Anna Univ Subjects. The detail syllabus for electromagnetic fields is as follows.”
Course Objective:
- To gain conceptual and basic mathematical understanding of electric and magnetic fields in free space and in materials
- To understand the coupling between electric and magnetic fields through Faradays law, displacement current and Maxwells equations
- To understand wave propagation in lossless and in lossy media
- To be able to solve problems based on the above concepts
Unit I
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Unit II
Electrostatics
Electric field, Coulombs law, Gausss law and applications, Electric potential, Conductors in static electric field, Dielectrics in static electric field, Electric flux density and dielectric constant, Boundary conditions, Capacitance, Parallel, cylindrical and spherical capacitors, Electrostatic energy, Poissons and Laplaces equations, Uniqueness of electrostatic solutions, Current density and Ohms law, Electromotive force and Kirchhoffs voltage law, Equation of continuity and Kirchhoffs current law
Unit III
Magnetostatics
Lorentz force equation, Law of no magnetic monopoles, Amperes law, Vector magnetic potential, Biot-Savart law and applications, Magnetic field intensity and idea of relative permeability, Magnetic circuits, Behaviour of magnetic materials, Boundary conditions, Inductance and inductors, Magnetic energy, Magnetic forces and torques
Unit IV
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Unit V
Plane Electromagnetic Waves
Plane waves in lossless media, Plane waves in lossy media (low-loss dielectrics and good conductors), Group velocity, Electromagnetic power flow and Poynting vector, Normal incidence at a plane conducting boundary, Normal incidence at a plane dielectric boundary
Course Outcome:
By the end of this course, the student should be able to:
- Display an understanding of fundamental electromagnetic laws and concepts
- Write Maxwells equations in integral, differential and phasor forms and explain their physical meaning
- Explain electromagnetic wave propagation in lossy and in lossless media
- Solve simple problems requiring estimation of electric and magnetic field quantities based on these concepts and laws
Text Books:
- D.K. Cheng, Field and wave electromagnetics, 2nd ed., Pearson (India), 1989 (Unit I, II,III IV,V)
- W.H. Hayt and J.A. Buck, Engineering electrmagnetics, 7th ed., McGraw-Hill (India), 2006 (Unit I-V)
References:
- D.J. Griffiths, Introduction to electrodynamics, 4th ed., Pearson (India), 2013
- B.M. Notaros, Electromagnetics, Pearson: New Jersey, 2011
- M.N.O. Sadiku and S.V. Kulkarni, Principles of electromagnetics, 6th ed., Oxford (Asian Edition), 2015
For detail syllabus of all other subjects of BE Ece, 2017 regulation do visit Ece 4th Sem syllabus for 2017 Regulation.
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