Lecture-1: Introduction, Coordinate Systems
Lecture-2: Base Vector, Position Vector, Contours, Surfaces, Volumes
Lecture-3: Gradient, Divergence, Curl, Conservative Vector Field, Solenoidal Vector Field, Home Assignment #1
Lecture-4: Coulomb's Law, Electric Field due to Point Charge, Electric Field due to Line Charge
Lecture-5: Electric Field due to Line Charge (Contd.), Electric Field due to Surface Charge, Electric Flux, Gauss Law, and Applications of Gauss Law
Lecture-6: Potential Difference, Potential Gradient, Electric Dipole, Equipotential Surfaces, Energy Density, Conduction and Convection Current
Lecture-7: Dielectrics and Conductors, Ohm's Law, Resistor, Perfect Conductor
Lecture-8: Kirchoff's Voltage Law, Joule's Law, Polarization Vector, Continuity Equation and Relaxation Time, Electrostatics Boundary Conditions
Lecture-9: Electrostatics Boundary Conditions (contd.), Electrostatic Boundary Value Problems
Lecture-10: Electrostatics Boundary Value Problems (contd.), Capacitances, Energy Stored in a Capacitor
Lecture-11: Class Test - III, Intro to Magnetostatics
Lecture-12: Biot-Savart Law, Ampere's Circuital Law
Lecture-13: Applications of Ampere's Law, Magnetic Flux Density, Scalar and Vector MAgnetic Potential
Lecture-14: Forces due to magnetic field
Lecture-15: Magnetic Torque, Dipole, Moment; Magnetization in Materials
Lecture-16: Magnetic Materials, Permanent Magnet, Magnetic Boundary Conditions
Lecture-17 and 18: Inductors and Inductances, Magnetic Energy, Magnetic Circuits, Electromagnetic Fields
Lecture-19: Electromagnetic Fields (contd.), Displacement Current, Maxwell's Equations, Time Varying Potential
Lecture-20: Time-Harmonic Fields
Lecture-21: Electromagnetic Wave Propagation, Complex Permittivity, Loss Tangent, Intrinsic Impedance, Skin Depth and Skin Effect, Electromagnetic Shielding
Lecture-22: Power Density and Poynting Vector, Wave Polarization
Lecture-23: Incidence, Reflection, and Transmission of Plane Waves
Lecture-24: Reflection of Plane Waves at Oblique Incidence (Snell's Law, Brewsters Angle, Parallel Polarization, Perpendicular Polarization, Introduction to RF/Microwave, Introduction to Transmission Lines
Course Syllabus for Winter 2015
Tutorial-1: 13th Jan 2015
Tutorial-2: 20th Jan 2015
Assignment-1: Demo on 21st Jan 2015, in RF Lab
Tutorial-3: 27th Jan 2015
Assignment-2: Demo on 4th Feb 2015, in RF Lab
Class Test - I: 29th Jan 2015
Soln Class Test - I: 29th Jan 2015
Tutorial-4: 6th Feb 2015
Class Test - III: 12th Feb 2015
Soln Class Test - III: 12th Feb 2015
Assignment-3 and 4: Demo on 18th March 2015, in RF Lab
Tutorial-5: 13th Feb 2015
Tutorial-6: 20th Feb 2015
Tutorial-7: 13th March 2015
Assignment-5: Demo on 8th April 2015, in RF Lab