Electromagnetic Fields and Waves Notes (original) (raw)

Define the Basic Electrostatic and Magneto static Law Derive the Maxwell's Equation and apply to the basic electromagnetic problem. Analyze the boundary conditions, at the interface of two different media and also time varying electric and magnetic fields. Explain the wave propagation in diffe r ent types of mediums and To outline the concepts and importance of Microwave frequencies, Rectangular wave guides and Microstrip lines COURSE OUTCOMES At the end of this course the student should be able to: CO1: Define electrostatic and magneto static laws L1. CO2: Derive the Maxwell's equations in static and dynamic fields L3. CO3: Describe energy density on electric/magnetic fields' and poynting theorem L1. CO4: Analyze the EM wave propagation in different mediums L4. CO5: Relate the wave propagation through different mediums and compute the TE & TM modes along the rectangular wave guides L2. TOPIC OUTCOME: Lect. No Topic to be covered Topic outcome: Will be able to L1 Introduction to EMW, vectors and scalars Define the vectors, scalars applications L2 vectors and scalars applications L3 Coordinate systems Explain the Coordinate systems L4 Coordinate systems conversions L5 Del operators Explain the Del operators applications L6 Del operators applications L7 UNIT-I Electrostatics: coulomb's law, Electric field intensity Define the coulomb's law, Electric field intensity L8 Fields due to different charge distribution, electric flux density Compute the fields due to different charge distribution, electric flux density L9 Gauss law and application Analyze the Gauss law and application L10 Electric potential, relations between E&V L11 Maxwell's two equations for electrostatic fields, energy density Derive the Maxwell's two equations for electrostatic fields, energy density L12 Electrostatics fields Discuss the Electrostatics fields