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Lecture
Electromagnetism: Fundamentals and Applications
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Electromagnetism: Fundamentals and Applications
Covers the fundamental concepts of electromagnetism, including magnetic properties of nanostructured materials and practical applications.
Theory of Images and Equivalence Principle
Explores the theory of images, equivalence principle, conductors, duality, and uniqueness in electromagnetism with practical examples.
Photon Picture of Electromagnetic Waves
Explores the photon concept in electromagnetic waves, including energy, momentum, emission by charges, coherence length, and the electromagnetic spectrum.
Electromagnetic Waves: Energy and Momentum
Discusses the energy, momentum, and generation of electromagnetic waves, along with their applications in optics and radiation pressure.
Electromagnetic Waves: Wave Equation and Maxwell's Equations
Explores the wave equation for electromagnetic waves, Maxwell's predictions, and the importance of polarization in defining wave properties.
Work evaluated by potential: Electrostatics
Explains how to calculate work and energy in an electric field using the potential function.
Interaction of E-M Waves with Matter: Transmission, Absorption, Reflection
Explores how electromagnetic waves interact with matter, emphasizing transmission, absorption, and reflection.
Communication Amid Uncertainty
Explores challenges in human communication, context importance, compression problems, uncertain functionality, and proof verification.
Energy Calculation in Capacitors
Explores energy calculation in capacitors, deriving a general formula applicable to any electrostatic field.
Electromagnetic Waves: Energy Density and Poynting Vector
Explains the energy density and Poynting vector in electromagnetic waves.
