- Cartesian Coordinate System
- Line integration, surface integration and volume integration in cartesian coordinate system
- Numerical 1 on Line Integration
- Numerical 1 on Surface Integration
- Numerical 1 on Volume Integration
- Cylindrical Coordinate System
- Vector Conversion Between Cylindrical and Cartesian Coordinate System
- Numerical 1 for Vector Conversion Between Cartesian and Cylindrical Coordinate System
- line integration, surface integration and volume integration in cylindrical coordinate system
- Numerical 2 on Line Integration
- Numerical 2 on Surface Integration
- Spherical Coordinate System
- Vector Conversion Between Spherical and Cartesian Coordinate System
- Numerical 1 for Vector Conversion Between Spherical and Cartesian Coordinate System
- Divergence of Vector and Divergence Theorem
- Numerical 1 on Divergence
- Numerical 2 on Divergence
- Numerical 1 on Divergence Theorem
- Numerical 2 on Divergence Theorem
- Curl and Stoke's Theorem
- Numerical 1 on Curl
- Numerical 2 on Curl
- Numerical 1 on Stoke's Theorem
- Gradient of Scalar
- Numerical 1 on Gradient
- Numerical 2 on Gradient

- Introduction and Coulomb's Law
- Numerical 1 on Coulomb's Law
- Electric Field Intensity
- Numerical 1 on Electric Field Intensity
- Distributed Charges Line Charge Surface Charge and Volume Charge
- Electric Field Intensity Due to Line Charge
- Numerical 1 on Line Charge Electric Field
- Electric Field Intensity Due to Surface Charge
- Numerical 1 on Surface Charge Electric Field
- Numerical 2 on Line and Surface Charge Electric Field
- Flux Density and Gauss's Law, Maxwell Equation
- Numerical 1 on Gauss's Law
- Numerical 2 on Gauss's Law
- Numerical 3 on Gauss's Law
- Numerical 4 on Gauss's Law
- Work Done and Electric Potential and Maxwell Equation
- Numerical 1 on Work Done
- Numerical 2 on Work Done
- Numerical 1 on Potential V
- Relationship between E and V
- Numerical 2 on Potential V
- Electric Boundary Condition (Dielectric Dielectric Interface)
- Numerical 1 on Boundary Condition
- Electric Field Behaviour on Conductor
- Electric Boundary Condition (Dielectric Conductor Interface)
- Numerical 2 on Boundary Condition
- Poission's and Laplace's Equations
- Numerical 1 on Laplace's Equation
- Numerical 2 on Laplace's Equation
- Numerical 3 on Laplace's Equation
- Parallel Plate Capacitor
- Coaxial Capacitor
- Spherical Capacitor
- Numerical 1 on Capacitor
- Method of Images (Image Theory)
- Numerical 1 on Image Theory
- Numerical 2 on Image Theory
- Continuity Equation and Relaxation Time
- Electric Dipole
- Numerical 1 on Electric Dipole
- Energy Density in Electrostatic Field
- Numerical 1 on Energy Density

- Introduction and Biot Savart Law
- Magnetic Field Intensity Due to Infinite Long Current Carrying Wire
- Numerical 1 Magnetic Field Due to Wire
- Magnetic Field Intensity Due to Finite Length Current Carrying Wire
- Numerical 2 Magnetic Field Due to Wire
- Magnetic Field Due to Circular Loop
- Numerical 1 on Magnetic Field Due to Circular Loop
- Ampere's Law and Maxwell Equation
- Numerical 1 on Ampere's Law
- Numerical 2 on Ampere's Law
- Magnetic Flux Density and Maxwell Equation
- Magnetic Vector and Scalar Potential
- Numerical 1 on Magnetic Vector Potential
- Magnetic Boundary Condition
- Numerical 1 on Magnetic Boundary Condition
- Numerical 2 on Magnetic Boundary Condition
- Lorentz Force
- Force on Current Carrying Wire in Magnetic Field

- Introduction and EM Wave Equation in Different Mediums(Helmholtz Equation)
- Intrinsic Impedance
- Numerical 1 on Em Wave
- Numerical 2 on Em Wave
- Numerical 3 on Em Wave
- Numerical 4 on Em Wave
- Loss Tangent and Skin Depth
- Poynting Vector and Power Flow
- Numerical 1 on Poynting Vector
- Numerical 2 on Poynting Vector
- Polarisation of Em Wave
- Numerical 1 on Polarisation
- Numerical 2 on Polarisation
- Numerical 3 on Polarisation
- Reflection and Transmission of Em Wave
- Numerical 1 on Reflection and Transmission
- Numerical 2 on Reflection and Transmission
- Em Wave Incident on Perfect Conductor
- Numerical 3 on Reflection and Transmission

- Introduction and Primary Constants of Transmission Lines
- V I Equation of Transmission Line
- Impedance of Transmission Line
- Loss Less and Distortion Less Transmission Line
- Impedance for Lossless Transmission Line
- Numerical 1 on Transmission Line
- Numerical 2 on Transmission Line
- Numerical 3 on Transmission Line
- Numerical 4 on Transmission Line
- Numerical 5 on Transmission Line
- Reflection Coefficient and Standing Wave Ratio
- Numerical 1 on Reflection Coefficient and Standing Wave Ratio
- Numerical 2 on Reflection Coefficient and Standing Wave Ratio
- Numerical 3 on Reflection Coefficient and Standing Wave Ratio
- Numerical 4 on Reflection Coefficient and Standing Wave Ratio
- Numerical 5 on Reflection Coefficient and Standing Wave Ratio
- Smith Chart
- Numerical 1 on Smith Chart
- Numerical 2 on Smith Chart
- Impedance Matching on Transmission Line

- Introduction and Parallel Plane Waveguide
- Wave Angle(Tilt Angle) and Phase and Group Velocity
- Numerical 1 on Parallel Plane Waveguide
- Numerical 2 on Parallel Plane Waveguide
- Transverse Electric Mode(TE) mode in Parallel Plane Waveguide
- Transverse Magnetic Mode(TM) mode in Parallel Plane Waveguide
- Transverse Electromagnetic (TEM) Mode in Parallel Plane Waveguide
- Rectangular Waveguide
- Generation of Different Modes in Rectangular Waveguide
- Relationship Between Operating, Cutoff and Guide Wavelength
- Dominating Mode in Rectangular Waveguide
- TM and TE Wave Equation in Rectangular Waveguide
- Numerical 1 on Rectangular Waveguide
- Numerical 2 on Rectangular Waveguide
- Numerical 3 on Rectangular Waveguide
- Numerical 4 on Rectangular Waveguide

- Introduction and Hertzian Dipole Antenna
- Half Wave Dipole Antenna
- Quarter Wave Monopole Antenna
- Basic Definitions of Antenna
- Effective Area and Friis Equation
- Antenna Arrays
- Pattern Multiplication Theorem
- Effective Length of Antenna
- Numerical 1 on Antenna
- Numerical 2 on Antenna
- Numerical 3 on Antenna
- Numerical 4 on Antenna
- Numerical 5 on Antenna
- Numerical 6 on Antenna

Teaching is about two things, one, student’s results, and two, a sense of satisfaction, believes professor Prahlad Singh. Sir is an MTech with a specialization in the branch of Electronics and Communication Engineering. He has almost 12 years of experience in the line of education. He teaches a lot of subjects like EMT, Network analysis, Signals and Systems, and also Digital Electronics.In his free time, he enjoys playing games, listening to music, and most importantly studying to enrich his educational content. Maxwell’s Technical books are his all time favourite.

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