• Course Introduction
  • Practice Activities
Electric Charge and Electric Force
  • Introduction to Electric Charge
  • Conductors, Insulators, and Charging
  • Charge Polarization
  • Charging by Induction
  • Coulomb's Law
Electric Fields
  • Introduction to Electric Fields and the Test Charge
  • Electric Field of a Point Charge
  • Electric Field Lines
  • Motion of a Point Charge in a Constant Uniform Electric Field
  • Electric Field of a Continuous Charge Distribution
  • Introducing the Permittivity Constant
Gauss' Law
  • Introduction to Gauss' Law
  • What is Flux?
  • Gauss' Law and Applications to Charged Insulators
  • Three Key Ideas about Conductors in Electrostatic Equilibrium
Electric Potential
  • Introduction to Electric Potential and Electric Potential Energy
  • Electric Potential
  • Electric Potential Energy
  • Electric Potential Energy of a System of Point Charges
  • Equipotential Curves
  • Electric Field -> Potential Difference
  • Potential Difference -> Electric Field
DC Circuits Without Capacitors
  • Introduction to DC Circuits Without Capacitors
  • Circuit Elements and Electric Current
  • Using a Voltmeter and/or Ammeter
  • Equivalent Resistance - Series and Parallel
  • Kirchoff's Current Law (Junction Rule)
  • Kirchoff's Voltage Law (Loop Rule)
  • Ideal vs Real emf
DC Circuits With Capacitors
  • Introduction to Capacitors and Capacitance
  • What is a Capacitor? What about Capacitance?
  • Equivalent Capacitance - Capacitors in Series
  • Equivalent Capacitance - Capacitors in Parallel
  • Special Case: Parallel Plate Capacitor
  • Energy Stored in a Capacitor
  • RC Circuits (Charging and Discharging)
  • Dielectrics
Magnetic Field
  • Introduction to Magnetic Fields
  • Magnetic Field Lines
  • Magnetic Force on an Electric Charge
  • Motion of a Charged Particle in a Constant Uniform Magnetic Field
  • Magnetic Force on a Current-Carrying Wire
What's Next?
  • Thank You!
  • Bonus Lecture: Where to Find More Information