Physics 167 (Fall 2024)


Syllabus

Slides of Lectures

Electric Charge and Coulomb's Law - Electric Field - Gauss Law - Electric Potential - Capacitance - Electric Circuits - Magnetism - Faraday's Law of Induction - Maxwell's Electromagnetic Waves - Laws of Geometric Optics - Relativity of Magnetic and Electric Fields - Wave Particle Duality -

Problems for Discussion Sessions

Problems I - (solutions) - Problems II - (solutions) - Problems III - (solutions) - Problems IV - (solutions) - Problems V - (solutions) - Problems VI - (solutions) - Problems VII - (solutions) - Problems VIII - (solutions) - Problems IX - (solutions) - Problems X - (solutions) - Problems XI - (solutions) - Problems XII - (solutions) - Problems XIII - (solutions) -

Complementary Material

Worked Examples from Introductory Physics by David Murdock: Electric Charge and Coulomb's Law -- Electric Field -- Electric Potential Energy and Electric Potential -- Electric Current and Resistance -- Julio Gonzales: Flux and Gauss Law -- Paul Peter Urone, Roger Hinrichs, Kim Dirks, and Manjula Sharma: Geometric Optics -- Luis A. Anchordoqui and Gabriela V. Anchordoqui, Understanding the wicked world that surrounds you: see, XI Spacetime -- Matthew Schwartz: The Doppler Effect -- Alan Guth: The Doppler Effect and Special Relativity -- Feynman Lectures: see, 13.6 The relativity of magnetic and electric fields --