Engineering Electromagnetics detail syllabus for Electronics & Communication Engineering (Ece), 2017 scheme is taken from VTU official website and presented for VTU students. The course code (17EC36), and for exam duration, Teaching Hr/week, Practical Hr/week, Total Marks, internal marks, theory marks, duration and credits do visit complete sem subjects post given below.
For all other ece 3rd sem syllabus for be 2017 scheme vtu you can visit ECE 3rd Sem syllabus for BE 2017 Scheme VTU Subjects. The detail syllabus for engineering electromagnetics is as follows.
Course Objectives:
This course will enable students to:
- Study the different coordinate systems, Physical signifiance of Divergence, Curl and Gradient.
- Understand the applications of Coulombs law and Gauss law to different charge distributions and the applications of Laplaces and Poissons Equations to solve real time problems on capacitance of different charge distributions.
- Understand the physical significance of Biot-Savarts, Amperess Law and Stokes theorem for different current distributions.
- Infer the effects of magnetic forces, materials and inductance.
- Know the physical interpretation of Maxwell equations and applications for Plane waves for their behaviour in different media
- Acquire knowledge of Poynting theorem and its application of power flow.
Module 1
For complete syllabus and results, class timetable and more pls download iStudy. Its a light weight, easy to use, no images, no pdfs platform to make students life easier.
Module 2
Gauss’s law and Divergence Gauss law, Divergence. Maxwells First equation (Electrostatics), Vector Operator ? and divergence theorem. Energy, Potential and Conductors Energy expended in moving a point charge in an electric field, The line integral, Definition of potential difference and potential, The potential field of point charge, Current and Current density, Continuity of current.
Module 3
Poisson’s and Laplace’s Equations Derivation of Poissons and Laplaces Equations, Uniqueness theorem, Examples of the solution of Laplaces equation. Steady Magnetic Field Biot-Savart Law, Amperes circuital law, Curl, Stokes theorem, Magnetic flux and magnetic flux density, Scalar and Vector Magnetic Potentials.
Module 4
For complete syllabus and results, class timetable and more pls download iStudy. Its a light weight, easy to use, no images, no pdfs platform to make students life easier.
Module 5
Time-varying fields and Maxwell’s equations
Faradays law, displacement current, Maxwells equations in point form, Maxwells equations in integral form.
Uniform Plane Wave
Wave propagation in free space and good conductors. Poyntings theorem and wave power, Skin Effect.
Course Outcomes:
After studying this course, students will be able to:
Evaluate problems on electric field due to point, linear, volume charges by applying conventional methods or by Gauss law.
Determine potential and energy with respect to point charge and capacitance using Laplace equation.
Calculate magnetic field, force, and potential energy with respect to magnetic materials.
Apply Maxwells equation for time varying fields, EM waves in free space and conductors.
Evaluate power associated with EM waves using Poynting theorem.
Text Books:
W.H. Hayt and J.A. Buck, Engineering Electromagnetics, 7th Edition, Tata McGraw-Hill, 2009, ISBN-978-0-07-061223-5.
Reference Books:
- John Krauss and Daniel A Fleisch, Electromagnetics with applications, McGraw- Hill.
- N. Narayana Rao, Fundamentals of Electromagnetics for Engineering, Pearson.
For detail syllabus of all other subjects of BE Ece, 2017 scheme do visit Ece 3rd Sem syllabus for 2017 scheme.
Dont forget to download iStudy for latest syllabus and results, class timetable and more.