# Electromagnetic Theory

 Course Code : EE6302 Author : uLektz University : Anna University, Tamil Nadu Regulation : 2013 Categories : Electrical & Electronics Format : ePUB3 (DRM Protected) Type : eBook

FREE

Description :Electromagnetic Theory of EE6302 covers the latest syllabus prescribed by Anna University, Tamil Nadu for regulation 2013. Author: uLektz, Published by uLektz Learning Solutions Private Limited.

Note : No printed book. Only ebook. Access eBook using uLektz apps for Android, iOS and Windows Desktop PC.

##### Topics
###### UNIT I ELECTROSTATICS – I

1.1 Sources and effects of electromagnetic fields

1.2 Coordinate Systems

1.4 Divergence - Curl

1.5 Theorems and applications

1.6 Coulomb’s Law

1.7 Electric field intensity

1.8 Field due to discrete and continuous charges

1.9 Gauss’s law and applications

###### UNIT II ELECTROSTATICS – II

2.1 Electric potential - Electric field and equipotential plots

2.2 Uniform and Non-Uniform field - Utilization factor

2.3 Electric field in free space, Conductors, Dielectrics

2.4 Dielectric polarization - Dielectric strength - Electric field in multiple dielectrics

2.5 Boundary conditions

2.6 Poisson’s and Laplace’s equations

2.7 Capacitance - Energy density

2.8 Applications

###### UNIT III MAGNETOSTATICS

3.1 Lorentz force

3.2 Magnetic field intensity (H)

3.3 Biot–Savart’s Law - Ampere’s Circuit Law

3.4 H due to straight conductors, circular loop

3.5 H due to infinite sheet of current

3.6 Magnetic flux density (B)

3.7 B in free space, conductor

3.8 Magnetic materials - Magnetization

3.9 Magnetic field in multiple media

3.10 Boundary conditions

3.11 Scalar and vector potential

3.12 Poisson’s Equation - Magnetic force

3.13 Torque

3.14 Inductance - Energy density

3.15 Applications

###### UNIT IV ELECTRODYNAMIC FIELDS

4.1 Magnetic Circuits

4.3 Transformer and motional EMF - Displacement current

4.4 Maxwell’s equations (differential and integral form)

4.5 Relation between field theory and circuit theory - Applications

###### UNIT V ELECTROMAGNETIC WAVES

5.1 Electromagnetic wave generation and equations - Wave parameters

5.2 Velocity - Intrinsic impedance

5.3 Propagation constant - Waves in free space

5.4 Lossy and loss less dielectrics

5.5 Conductors - skin depth

5.6 Poynting vector

5.7 Plane wave reflection and refraction - Standing Wave

5.8 Applications