- Introduction to Subject
- Scalars, Vectors and Vector Operations
- The Rectangular Coordinate System
- The Rectangular Coordinate System - Problem 1
- The Rectangular Coordinate System - Problem 2
- The Rectangular Coordinate System - Problem 3
- The Rectangular Coordinate System - Problem 4
- The Cylindrical Coordinate System
- The Cylindrical Coordinate System - Problem 1
- The Cylindrical Coordinate System - Problem 2
- The Cylindrical Coordinate System - Problem 3
- The Spherical Coordinate System
- The Spherical Coordinate System - Problem 1
- The Spherical Coordinate System - Problem 2
- The Spherical Coordinate System - Problem 3
- Differential Lengths, Differential Surfaces and Differential Volume
- The Vector Operator - ? and Gradient
- Divergence and Divergence Theorem
- Curl and Stoke's Theorem
- Miscellaneous Problems 1
- Miscellaneous Problems 2
- Miscellneous Problem 3
- Miscellneous Problem 4

- The Coulomb's Law
- Electric Field Intensity
- Electric Field of a Line Charge
- Electric Field of a Sheet of Charge
- Streamlines and Sketches of Fields
- Electric Field Intensity - Problem 1
- Electric Field Intensity - Problem 2
- Electric Field Intensity - Problem 3
- The Coulomb's Law :- Problem - 1
- The Coulomb's Law :- Problem - 2
- The Coulomb's Law :- Problem - 3
- Electric field of a line charge Problem 1
- Electric field of a line charge Problem 2
- Electric field of sheet charge problem 1
- Electric field of sheet charge problem 2
- Miscellanears Problem - 1
- Miscellanears Problem - 2

- Electric Flux Density
- Electric Flux Density - Problem - 1
- Electric Flux Density - Problem - 2
- Electric Flux Density - Problem - 3
- The Gauss’s Law and Applications
- The Gauss's Law and Applications Problem -1
- The Gauss’s Law and Applications: Problem 2
- The Gauss’s Law and Applications: Problem 3
- Divergence and the Divergence Theorem
- Divergence and the Divergence Theorem: Problem 1
- Divergence and the Divergence Theorem: Problem 2
- Divergence and the Divergence Theorem: Problem 3
- Miscellaneous Problem 1
- Miscellaneous Problem 2

- Energy Expended (Work Done) in Moving a Point Charge in an Electric Field
- Work Done: Problem 1
- Work Done: Problem 2
- Work Done: Problem 3
- Potential Difference and Electric Scalar Potential
- Potential Difference and Electric Scalar Potential: Problem 1
- Potential Difference and Electric Scalar Potential: Problem 2
- Potential Difference and Electric Scalar Potential: Problem 3
- Potential Field of a System of Charges
- Potential Field of a System of Charges: Problem 1
- Potential Field of a System of Charges: Problem 2
- Potential Field of a System of Charges: Problem 3
- Potential Gradient
- Potential Gradient: Problem 1
- Potential Gradient: Problem 2
- Potential Gradient: Problem 3
- The Electric Dipole
- The Electric Dipole: Problem 1
- The Electric Dipole: Problem 2
- The Electric Dipole: Problem 3
- Energy Density in Electrostatic Field
- Energy Density in Electrostatic Field: Problem 1
- Energy Density in Electrostatic Field: Problem 2
- Energy Density in Electrostatic Field: Problem 3

- Current and Current Density
- Current and Current Density: Problem 1
- Current and Current Density: Problem 2
- Current and Current Density: Problem 3
- Continuity of Current
- Continuity of Current: Problem 1
- Continuity of Current: Problem 2
- Conductors, Properties and Boundary Conditions
- Conductors, Properties and Boundary Conditions: Problem 1
- Conductors, Properties and Boundary Conditions: Problem 2
- Conductors, Properties and Boundary Conditions: Problem 3
- Conductors, Properties and Boundary Conditions: Problem 4
- Semiconductors and Dielectric Materials
- Semiconductors and Dielectric Materials: Problem 1
- Semiconductors and Dielectric Materials: Problem 2
- Semiconductors and Dielectric Materials: Problem 3
- Semiconductors and Dielectric Materials: Problem 4
- Boundary Conditions for Perfect Dielectric Materials
- Boundary Conditions for Perfect Dielectric Materials: Problem 1
- Boundary Conditions for Perfect Dielectric Materials: Problem 2
- Boundary Conditions for Perfect Dielectric Materials: Problem 3
- Boundary Conditions for Perfect Dielectric Materials: Problem 4

- Parallel-Plate Capacitor
- Parallel-Plate Capacitor: Problem 1
- Parallel-Plate Capacitor: Problem 2
- Parallel-Plate Capacitor: Problem 3
- Parallel-Plate Capacitor: Problem 4
- Capacitance of a Two-Wire Line
- Capacitance of a Two-Wire Line: Problem 1
- Field Sketches to Estimate Capacitance in Two-Dimensional Problems
- Field Sketches to Estimate Capacitance in Two-Dimensional Problems: Problem 1
- Poisson’s and Laplace’s Equations
- Solution of Laplace's Equation
- Solution of Laplace's Equation: Problem 1
- Solution of Laplace's Equation: Problem 2
- Solution of Laplace's Equation: Problem 3
- Solution of Laplace's Equation: Problem 4
- Solution of Poisson's Equation
- Solution of Poisson's Equation: Problem 1
- Solution of Poisson's Equation: Problem 2
- Solution of Poisson's Equation: Problem 3

- Current Distributions
- Biot-Savart Law
- Biot-Savart Law: Problem 1
- Biot-Savart Law: Problem 2
- Biot-Savart Law: Problem 3
- Magnetic Field Intensity due to Current Carrying Infinite Filament
- Magnetic Field Intensity due to Current Carrying Infinite Filament: Problem 1
- Magnetic Field Intensity due to Current Carrying Infinite Filament: Problem 2
- Magnetic Field Intensity due to Current Carrying Finite Filament
- Magnetic Field Intensity due to Current Carrying Finite Filament: Problem 1
- Magnetic Field Intensity due to Current Carrying Finite Filament: Problem 2
- Ampere’s Circuital Law and Application
- Ampere’s Circuital Law and Application: Problem 1
- Ampere’s Circuital Law and Application: Problem 2
- Ampere’s Circuital Law and Application: Problem 3
- Curl and Stoke's Theorem
- Curl and Stoke's Theorem: Problem 1
- Curl and Stoke's Theorem: Problem 2
- Curl and Stoke's Theorem: Problem 3
- Magnetic Flux and Magnetic Flux Density
- Magnetic Flux and Magnetic Flux Density: Problem 1
- Magnetic Flux and Magnetic Flux Density: Problem 2
- Magnetic Flux and Magnetic Flux Density: Problem 3
- The Scalar and Vector Magnetic Potentials
- The Scalar and Vector Magnetic Potentials: Problem 1
- The Scalar and Vector Magnetic Potentials: Problem 2
- The Scalar and Vector Magnetic Potentials: Problem 3
- Derivation of the Steady-Magnetic-Field Laws
- Miscellaneous Problem 1
- Miscellaneous Problem 2

- Force on a Moving Charge
- Force on a Moving Charge: Problem 1
- Force on a Moving Charge: Problem 2
- Force on Differential Current Element
- Force on Differential Current Element: Problem 1
- Force on Differential Current Element: Problem 2
- Force on Differential Current Element: Problem 3
- Force and Torque on a Closed Circuit
- Force and Torque on a Closed Circuit: Problem 1
- Force and Torque on a Closed Circuit: Problem 2
- Force and Torque on a Closed Circuit: Problem 3
- Magnetization and Permeability
- Magnetization and Permeability: Problem 1
- Magnetization and Permeability: Problem 2
- Magnetization and Permeability: Problem 3
- Magnetic Boundary Conditions
- Magnetic Boundary Conditions: Problem 1
- Magnetic Boundary Conditions: Problem 2
- Inductance and Mutual Inductance
- Inductance and Mutual Inductance: Problem 1
- Inductance and Mutual Inductance: Problem 2
- Inductance and Mutual Inductance: Problem 3

- Maxwell's Equations in Time Constant Fields
- Faradays Law
- Displacement Current
- Maxwell’s Equations for Time Varying Fields
- Maxwell’s Equations for Time Varying Fields: Problem 1
- Maxwell’s Equations for Time Varying Fields: Problem 2
- Maxwell’s Equations for Time Varying Fields: Problem 3
- Maxwell’s Equations for Time Varying Fields: Problem 4
- Maxwell’s Equations for Time Varying Fields: Problem 5
- Maxwell’s Equations for Time Varying Fields: Problem 6
- The Retarded Potentials

- Maxwell's Equations in Phasor Form
- Wave Equations in General Conducting Medium
- Wave Equations in Perfect Dielectric Medium
- Solution of Wave Equations in General Conducting Medium
- Wave Propagation in Perfect Dielectric Medium
- Wave Propagation in Perfect Dielectric Medium: Problem 1
- Wave Propagation in Perfect Dielectric Medium: Problem 2
- Wave Propagation in Perfect Dielectric Medium: Problem 3
- Wave Propagation in Perfect Conductor
- Wave Propagation in Good Dielectric Medium
- Wave Propagation in Good Conducting Medium
- Wave Propagation in Good Conducting Medium: Problem 1
- Wave Propagation in Good Conducting Medium: Problem 2
- Wave Propagation in Good Conducting Medium: Problem 3
- Poynting’s Theorem and Wave Power
- Poynting’s Theorem and Wave Power: Problem 1
- Poynting’s Theorem and Wave Power: Problem 2
- Poynting’s Theorem and Wave Power: Problem 3
- Wave Polasisation

- Reflection of Uniform Plane Waves at Boundary Between Two General Mediums: Normal Incidence
- Reflection by Perfect Dielectric : Normal Incidence: Problem 1
- Reflection by Perfect Dielectric : Normal Incidence: Problem 2
- Reflection by Perfect Dielectric : Normal Incidence: Problem 3
- Reflection by Perfect Conductor : Normal Incidence
- Reflection by Perfect Conductor : Normal Incidence: Problem 1
- Reflection by Perfect Conductor : Normal Incidence: Problem 2
- Reflection by Perfect Conductor : Normal Incidence: Problem 3
- Standing Wave Ratio
- Standing Wave Ratio: Problem 1
- Standing Wave Ratio: Problem 2
- Wave Reflection from Multiple Interfaces
- Wave Reflection from Multiple Interfaces: Problem 1
- Plane Wave Propagation in General Directions
- Plane Wave Reflection at Oblique Incidence Angles
- Plane Wave Reflection at Oblique Incidence Angles: Problem 1
- Total Reflection and Total Transmission of Obliquely Incident Waves
- Total Reflection and Total Transmission of Obliquely Incident Waves: Problem 1
- Total Reflection and Total Transmission of Obliquely Incident Waves: Problem 2
- Wave Propagation in Dispersive Media
- Wave Propagation in Dispersive Media: Problem 1
- Pulse Broadening in Dispersive Media
- Pulse Broadening in Dispersive Media: Problem 1
- Miscellaneous Problem 1
- Miscellaneous Problem 2

- Multiconductor Transmission Lines
- Multiconductor Transmission Lines: Problem 1
- Multiconductor Transmission Lines: Problem 2
- Multiconductor Transmission Lines: Problem 3
- Multiconductor Transmission Lines: Problem 4
- Wave Propagation in Rectangular Waveguide
- TM, TE Waves and Characteristics in Rectangular Waveguide
- Rectangular Waveguides: Problem 1
- Rectangular Waveguides: Problem 2
- Rectangular Waveguides: Problem 3
- Rectangular Waveguides: Problem 4

- Equivalent Circuit of Transmission Line
- The Transmission Line Equations
- Lossless Transmission Line
- Lossy Transmission Line
- Standing Waves
- Miscellaneous Problem 1
- Miscellaneous Problem 2
- Miscellaneous Problem 3
- Miscellaneous Problem 4
- Miscellaneous Problem 5
- Miscellaneous Problem 6
- Miscellaneous Problem 7

Professor Vaibhav Pandit is on a mission to change a student’s attitude while studying Electromagnetic Theory. He has earned his M.E from Mumbai University. He has a vast experience in both research & teaching. His area of specialization includes Electromagnetic Theory, Digital Electronics. He is dedicated to Ekeeda to share his abundant set of knowledge and bless his students with concrete concepts.

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