Uniqueness Theorem: Basics, Derivation, and Proof

Uniqueness Theorem is explained with the following Timestamps: 0:00 - Basics of Uniqueness Theorem - Electromagnetics Theory 3:01 - Case Study of Uniqueness Theorem 6:21 - Proof of Uniqueness Theorem Uniqueness Theorem is covered by the following outlines: 0. Uniqueness Theorem 1. Basics of Uniqueness Theorem 2. Derivation of Uniqueness Theorem 3. Proof of Uniqueness Theorem 4. Physical interpretation of Uniqueness Theorem 5. Case Study of Uniqueness Theorem Chapter-wise detailed Syllabus of the Electromagnetics Theory Course is as follows: Chapter-1 Vector and Coordinate System:    • Vector and Coordinate Systems in Electroma...   Basics of Vector, Parameters of vector, Examples of Vector, Coordinate Systems, Magnitude and direction of the vector, Vector Multiplication, Dot and Cross multiplication of Vector, Resultant of vector, Law of the parallelogram, Law of polygon, Cartesian Coordinate System, Cylindrical Coordinate System, Spherical Coordinate System, Conversion of Coordinate System, Gradient, Divergence and Curl Calculation, Divergence Theorem and Stocks Theorem. Chapter-2 Electrostatics:    • Electrostatics in Electromagnetics Theory   Coulomb's Law, Electric Field, Charge Density (Line Charge, Surface Charge, and Volume Charge) Electric Field Due to Line Charge, Surface Charge and Volume Charge, Electric Flux, Gauss's Law for Electric field, Electric Dipole, Force and Torque on Electric Dipole, Electric Potential and Boundary Conditions of Electric field. Chapter-3 Capacitor and Capacitance:    • Capacitors and Capacitance in Electromagne...   Parallel Plate Capacitors, Coaxial Capacitors, Spherical Capacitors, Examples of Capacitance, Continuity of Current, Poisson's and Laplace Equations, Uniqueness Theorem, and Image Theory of Charges. Chapter-4 Magnetism:    • Magnetism in Electromagnetics Theory   Biot Savart Law, Ampere Circuit Law, Maxwell Equations, Magnetic Field, Gauss's Law for Magnetic field, Examples of Magnetic field, Magnetic Flux, Vector Magnetic potential, Faraday's Law, Boundary conditions of Magnetic field, Induction and Inductance, Solenoid and Toroid, Lorentz Force Equation and Magnetic Properties of Materials. Chapter-5 Electromagnetic Wave:    • EM Waves in Electromagnetics Theory   EM wave propagation, Plane EM wave in the medium, Wave Equation of EM Waves, Skin Effects, Intrinsic Impedance, Loss tangent of the medium, Pointing Theorem and Examples of EM wave propagation. Engineering Funda channel is all about Engineering, Science, and Technology. Here this video is a part of Electromagnetics Theory. #UniquenessTheorem #ElectromagneticTheory @EngineeringFunda