Physics 2

The document outlines the curriculum for Physics 2 in the second semester, with a total of 67.5 hours of instruction, including 3 hours of lectures and 1.5 hours of tutorials per week, and is worth 6 credits with a coefficient of 3. The course aims to introduce students to the fundamental physical phenomena underlying electricity, building on prerequisites such as Mathematics 1 and Physics 1. The content begins with a one-week review of essential mathematical concepts, including elements of length, surface, and volume in different coordinate systems, solid angles, and various mathematical operators like Gradient, Curl, Nabla, Laplacian, and Divergence, as well as partial derivatives and multiple integrals. The course then delves into electrostatics for six weeks, covering topics like electrostatic charges and fields, Coulomb's Law, electrostatic potential, electric dipoles, flux of the electric field, Gauss's Theorem, conductors in equilibrium, electrostatic pressure, and capacitance. Following this, four weeks are dedicated to electrodynamics, discussing electric conductors, Ohm's Law, Joule's Law, electrical circuits, network applications of Ohm's Law, and Kirchhoff's Laws, including Thevenin's Theorem. The final four weeks focus on electromagnetism, exploring magnetic fields, the Biot-Savart Law, Ampère's Theorem, magnetic fields created by permanent currents, induction phenomena, Lorentz and Laplace forces, Faraday's and Lenz's Laws, and their applications to coupled circuits. Assessment is divided between continuous evaluation, which accounts for 40%, and a final exam, which makes up 60% of the grade.