PHYS-201(d): General physics: electromagnetism

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Lectures in this course (106)

Lorentz Force and Cyclotron Motion

Explores the Lorentz force, charge trajectory, and cyclotron motion in magnetic fields.

Magnetic field and Lorentz force: Field lines and historical experiments

Introduces magnetic field concepts, Lorentz force, historical experiments, and field lines.

AC Power and Waves: Understanding Electromagnetic Waves

Explores AC power, electromagnetic waves, wireless communication, and wave interference effects.

Electromagnetic Waves: General Properties and Applications

Explores electromagnetic waves, their properties, applications, and interconnected fields.

Exam Conditions: Preparation and Guidelines

Covers the upcoming written exam guidelines and emphasizes the importance of preparation and problem-solving strategies.

Indicative Feedback: Exam Comments and Teaching Strategies

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

Electromagnetic Waves: Concepts and Interactions

Explores electromagnetic waves, photons, coherence length, superposition, and wave emission.

Transformer: Functionality, Calculations, and Applications

Covers the functionality of a transformer and its applications in electric power transmission.

Power in AC Circuits: Analysis and Optimization

Covers the analysis of time-dependent power consumption in AC circuits.

Filters: High-pass and Low-pass

Covers high-pass and low-pass filters, analyzing signal blocking for specific frequencies and relating circuit elements to filter functionality.

Analysis of an RLC circuit: Damped Oscillator with Forced Excitation

Explores the analysis of RLC circuits with AC emf, focusing on damped oscillators and resonant behavior.

E-M Waves Interacting with Matter

Explores the interaction of electromagnetic waves with matter, including polarization and electric susceptibility.

Wave Equation: Mechanical System and Phase Velocities on Strings

Explores the wave equation for mechanical systems, phase velocities on strings, and examples of waves following d'Alembert.

Types of Waves: Definitions and Interference Effects

Explores the nature of waves, interference effects, and different wave types.

Polarization Effects: E-M Waves Interacting with Matter

Explores polarization effects in e-m waves interacting with matter, including monochromatic waves, velocities in metals, decomposition, birefringence, and stress analysis.

Ampère-Laplace Law: Magnetic Field Calculation and Applications

Explores the Ampère-Laplace law for magnetic field calculation and its practical applications.

Lorentz Force Law, Magnetic Force on Wire

Discusses the Lorentz force law and magnetic force on a wire.

Electromagnetic Waves and Conductors: Exam Conditions Revisited

Revisits exam conditions by covering electromagnetism, waves, and fluid mechanics, including levels of exam questions and grading components.

Applications of Ampère's and Gauss's Laws in Magnetostatics

Explores the applications of Ampère's and Gauss's laws in magnetostatics, including solenoids and magnetic field flux.

Ampère's Law and Magnetic Field Circulation

Explores Ampère's law, magnetic field distribution, and circulation, including Amperian loops and line integrals.

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