Electromagnetic Theory Eee 3rd Sem Syllabus for BE 2017 Regulation Anna Univ

Electromagnetic Theory detail syllabus for Electrical & Electronics Engineering (Eee), 2017 regulation is taken from Anna University official website and presented for students of Anna University. The details of the course are: course code (EE8391), Category (PC), Contact Periods/week (4), Teaching hours/week (2), Practical Hours/week (2). The total course credits are given in combined syllabus.

For all other eee 3rd sem syllabus for be 2017 regulation anna univ you can visit Eee 3rd Sem syllabus for BE 2017 regulation Anna Univ Subjects. The detail syllabus for electromagnetic theory is as follows.”

Course Objective:

• To introduce the basic mathematical concepts related to electromagnetic vector fields
• To impart knowledge on the concepts of J Electrostatic fields, electrical potential, energy density and their applications.
• Magneto static fields, magnetic flux density, vector potential and its applications.
• Different methods of emf generation and Maxwells equations
• Electromagnetic waves and characterizing parameters

Unit I

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Unit II

Electrostatics – II
Electric potential – Electric field and equipotential plots, Uniform and Non-Uniform field, Utilization factor – Electric field in free space, conductors, dielectrics – Dielectric polarization -Dielectric strength – Electric field in multiple dielectrics – Boundary conditions, Poissons and Laplaces equations, Capacitance, Energy density, Applications.

Unit III

Magnetostatics
Lorentz force, magnetic field intensity (H) – Biot-Savarts Law – Amperes Circuit Law – H 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, Poissons Equation, Magnetic force, Torque, Inductance, Energy density, Applications.

Unit IV

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Unit V

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.

Course Outcome:

• Ability to understand the basic mathematical concepts related to electromagnetic vector fields.
• Ability to understand the basic concepts about electrostatic fields, electrical potential, energy density and their applications.
• Ability to acquire the knowledge in magneto static fields, magnetic flux density, vector potential and its applications.
• Ability to understandthe different methods of emf generation and Maxwells equations Ability to understand the basic concepts electromagnetic waves and characterizing parameters
• Ability to understand and compute Electromagnetic fields and apply them for design and analysis of electrical equipment and systems

Text Books:

1. Mathew N. O. Sadiku, Principles of Electromagnetics, 6th Edition, Oxford University Press Inc. Asian edition, 2015.
2. William H. Hayt and John A. Buck, Engineering Electromagnetics, McGraw Hill Special Indian edition, 2014.
3. Kraus and Fleish, Electromagnetics with Applications, McGraw Hill International Editions, Fifth Edition,2010.

References:

1. V.V.Sarwate, Electromagnetic fields and waves, First Edition, Newage Publishers, 1993.
2. J.P.Tewari, Engineering Electromagnetics – Theory, Problems and Applications, Second Edition, Khanna Publishers.
3. Joseph. A.Edminister, Schaums Outline of Electromagnetics, Third Edition (Schaums Outline Series), McGraw Hill, 2010.
4. S.P.Ghosh, Lipika Datta, Electromagnetic Field Theory, First Edition, McGraw Hill Education(India) Private Limited, 2012.
5. K A Gangadhar, Electromagnetic Field Theory, Khanna Publishers; Eighth Reprint : 2015

For detail syllabus of all other subjects of BE Eee, 2017 regulation do visit Eee 3rd Sem syllabus for 2017 Regulation.

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