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Fall 2015

Edwin Greco

PHYS 2212

These are the in class notes for Week 1. It includes: Vectors, Electric Charges, Coulomb's Law, and Electric Fields

Notes covering lectures and textbook material for week one.

Graph from a Physics Lab

This material covers the 2nd week of course material.

Vectors Review 13.4 Electric Field of a Point Charge 13.5 Superposition of Electric Fields 13.6 Electric Field of a Dipole

Notes for week 2 lecture and reading assignments (only one lecture was held this week due to a holiday and inclement weather).

Notes on lectures and the assigned reading from the textbook for week 3.

14.1 Charged Particles in Matter 14.2 How Objects Become Charged 14.3 Polarization of Atoms 14.4 Polarization of Insulators 14.5 Polarization of Conductors 14.6 Charge in Motion in Metals 14.7 Charge Transfer

Study guide covering the material for test 1.

Study Guide for Test 1

15.1 A Uniformly Charged Thin Rod 15.2 Procedure for Calculating Electric Field 15.3 A Uniformly Charged Thin Ring 15.4 A Uniformly Charged Disk 15.5 Two Uniformly Charged Disks: A Capacitor 15.6 A Spherical Shell of Charge

16.1 A Review of Potential Energy 16.2 Systems of Charged Objects 16.3 Potential Difference in a Uniform Field 16.4 Sign of Potential Difference 16.5 Potential Difference in a Nonuniform Field 16.6 Path Independence 16.7 The Potential at One Location

Lecture notes for week 4.

Lecture notes for week 5.

Lecture notes for week 6.

16.7 The Potential at One Location 16.9 Potential Difference in an Insulator 17.1 Electron Current 17.2 Detecting Magnetic Fields 17.3 Biot-Savart Law: Single Moving Charge

Lecture material covering the Biot-Savart Law / magnetic fields in relation to wires/rods, rings, and coils; variations of the right-hand-rule; and magnetic field patterns.

17.6 The Biot-Savart Law for Currents 17.7 The Magnetic Field of Current Distributions 17.8 Circular Loop of Wire 17.10 Magnetic Dipole Moment 17.11 The Magnetic Field of a Bar Magnet

18.1 A Circuit is Not in Equilibrium 18.2 Current in Different Parts of a Circuit 18.3 Electric Field and Current 18.4 What Charges Make the Electric Field Inside the Wires?

Week 11 was Spring Break. Electric Flux Gauss's Law Gaussian Surface Symmetry (Spherical, Cylindrical, Rotational) Hollow Sphere of Metal

Study Guide 3 Chapters 18-20

Week 13 Notes

Week 14 Notes

Study Guide Exam 4 Maxwell's Equations

Important topics from the previous test until the end of the course

Covers Node Rule, and circuit analysis

Ohm's law, resistance types, Magnetic force/Lorentz force

Hall Effect, motional emf

Spring Break week...

Gauss's law

Ampere's law, Solenoids, Diodes, Faraday's law

Faraday's law continued, Eddy current, RL & LC circuits, transformers

Maxwells' equations, radiation fields from accelerating charges

Electromagnetic waves, radiation fields continued

Week 15 Notes

Final Study Guide