Lectures related to Multiple Reflection Diagrams

Telegrapher's Equations: Solutions and Examples

Explores time-domain solutions for lossless lines and examples of wave propagation behavior.

Electromagnetism: Reflection and Transmission Coefficients

Explores reflection and transmission Fresnel coefficients in electromagnetism.

Transmission Lines: Solutions and Equations

Explores time-domain and frequency-domain solutions for transmission lines, including the Bergeron Method and input impedance.

Transmission Lines: Theory and Assumptions

Covers the theory and assumptions behind transmission lines, including TEM mode of propagation and antenna mode currents.

Multiconductor Transmission Lines

Explores solutions and examples for multiconductor transmission lines, covering line parameters, wave propagation, inductance, capacitance matrices, and modal wave equations.

Transmission Line Theory: Wave Propagation

Explores transmission line theory, telegrapher's equations, and frequency-domain solutions for lossless and lossy lines.

Theory of Images and Equivalence Principle

Explores the theory of images, equivalence principle, conductors, duality, and uniqueness in electromagnetism with practical examples.

Transmission Line Theory: Frequency Solutions

Explores frequency solutions for transmission lines, including voltage reflection coefficients and the Blumer index.

Power Balance and Critical Angle

Discusses power balance and critical angle in electromagnetism with practical examples and exercises.

Transmission Lines: Incremental Model

Covers the incremental model for transmission lines, including Kirchhoff's laws and VSWR calculations.

Retarded Potentials and Electromagnetic Energy

Explores retarded potentials, electromagnetic energy, and conservation of energy in electromagnetism.

Transmission Lines: Arbitrary Terminations

Explores the effects of complex impedance on reflected waves and distribution of quantities.

Transmission Line Coupling Models and Solutions

Covers transmission line theory, Telegrapher's Equations, frequency domain solutions, multi-conductor lines, and load responses.

Electromagnetism: Fundamentals and Applications

Covers the fundamental concepts of electromagnetism, including magnetic properties of nanostructured materials and practical applications.

Time-dependent quantum mechanics: semiclassical atom-radiation interactions

Explores semiclassical atom-radiation interactions, transition probabilities, Rabi oscillations, and spontaneous emission.

Electromagnetic Phenomena

Introduces the importance of studying electromagnetic phenomena and Maxwell's equations.

Transmission Lines Parameters: Coaxial, Two-Wire, Plate (C31)

Explains how transmission line parameters change with different mediums and materials, providing formulas and examples for practical applications.

Versatile EM Wave Description

Summarizes EM chapters, emphasizing wave description, reflection laws, and light intensity calculations.

Electromagnetism Survey

Presents the outcomes of an electromagnetism survey and emphasizes the value of student feedback.

Indicative Feedback: Exam Comments and Teaching Strategies

Discusses exam feedback, teaching strategies, and course improvement suggestions in electromagnetism.