Electromagnetic Fields detailed syllabus scheme for B.Tech Electronics & Telecommunication Engineering (ET), 2017 onwards has been taken from the DBATU official website and presented for the Bachelor of Technology students. For Subject Code, Course Title, Lecutres, Tutorials, Practice, Credits, and other information, do visit full semester subjects post given below.
For all other DBATU Syllabus for Electronics & Telecommunication Engineering 5th Sem 2017, do visit ET 5th Sem 2017 Onwards Scheme. The detailed syllabus scheme for electromagnetic fields is as follows.
Electromagnetic Fields Syllabus for Electronics & Telecommunication Engineering (ET) 3rd Year 5th Sem 2017 DBATU
Course Objectives:
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Course Outcomes:
- Learner will apply knowledge of mathematics to solve numerical based on Coulombs law, Gausss law, Biot Savarts law, Amperes circuital law etc.
- The basic platform of EM helps students in future courses like wave theory and antenna, Microwave and Radar Engineering, Optical Fiber Communication etc.
- Students will understand the Maxwells Equations in different forms and hence EM analysis can be achieved for different materials.
- Students will understand impact of the EM course in many engineering core subjects like Optical Fiber Communication, Microwave Engineering, Antenna engineering etc. and its impact on the technology used by the society.
- This course understanding will encourage students to learn its usefulness in core domain areas like wave theory, antenna design and simulations, microwave theory, optical communication etc.
Unit 1
Mathematical Fundamentals and Static Electric Fields
Introduction, Vector Analysis, Coordinate systems and Transformations, Line, surface and volume integrals, Divergence Theorem, Stoke’s theorem, Columb’s Law, Electric Field, Electric flux density, Gauss’s Law with Application, Electrostatic Potential and Equipotential Surfaces, Boundary conditions for Electrostatic fields, Capacitance and Capacitors, Electrostatic Energy and Energy Density, Poisson’s and Laplace’s Equations, Uniqueness Theorem, Method of Images, Electrostatic boundary value problem.
Unit 2
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Unit 3
Time Varying Field and Maxwell’s Equations
Introduction, Faraday’s Law of electromagnetic Induction, Maxwell’s Equation, Boundary Conditions for Electromagnetic fields, Time Harmonic Fields
Unit 4
Electromagnetic Waves
The Helmhotz Equation, Plane waves in Lossless medium, Plane waves in a lossy medium. Poynting Vector and Power Flow in Electromagnetic Fields, Polarization of plane wave, Behavior of Plane waves at the interface of two media.
Unit 5
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Unit 6
Introduction to Numerical Techniques in Electromagnetics
Introduction, Finite difference method, Basic Concepts of the Method of Moments, Method of Moment for Wire Antennas and Wire Scatterers.
Reference/Text Book:
- Sadiku, “Elements of Electromagnetics”, Oxford.
- Krauss, “Electromagnetics”, McGraw Hill, New York, 4th edition.
- W. H. Hayt, “Engineering Electromagnetics”, McGraw Hill , New Delhi , 1999.
- Edminister, Schaum series, “Electromagnetics”, McGraw Hill, New York, 1993, 2nd edition.
- Sarvate, “Electromagnetism”, Wiley Eastern.
For detail syllabus of all other subjects of Electronics & Telecommunication Engineering (ET) 5th Sem 2017 regulation, visit ET 5th Sem Subjects syllabus for 2017 regulation.