| Week |
Course Content |
| Week 1 |
CHAPTER 21 ELECTRIC CHARGE
21-1 What is physics?
21-2 Electric charge
21-3 Conductors and insulators
21-4 Coulomb’s law
21-5 Charge is quantized
21-6 Charge is conserved
|
| Week 2 |
CHAPTER 22 ELECTRIC FIELDS
22-1 What is physics?
22-2 The electric field
22-3 Electric field lines
22-4 The electric field due to a point charge
|
| Week 3 |
22-5 The electric field due to an electric dipole
22-6 The electric field due to a line of charge
22-7 The electric field due to a charged disk
|
| Week 4 |
22-8 A point charge in an electric field
22-9 A dipole in an electric field
CHAPTER 23 GAUSS’ LAW
23-1 What is physics?
23-2 Flux
23-3 Flux of an electric field
23-4 Gauss’ law
23-5 Gauss’ law and Coulomb’s law
23-6 A charged isolated conductor
|
| Week 5 |
23-7 Applying Gauss’ law:cylindrical symmetry
23-8 Applying Gauss’ law:planar symmetry
23-9 Applying Gauss’ law:spherical symmetry
|
| Week 6 |
CHAPTER 24 ELECTRIC POTENTIAL
24-1 What is physics?
24-2 Electric potential energy
24-3 Electric potential
24-4 Equipotential surface
|
| Week 7 |
24-5 Calculating the potential from the field
24-6 Potential due to a point charge
24-7 Potential due to a group of point charges
24-8 Potential due to an electric dipole
24-9 Potential due to a continuous charge distribution
|
| Week 8 |
24-10 Calculating the field from the potential
24-11 Electric potential energy of a system of point charges
24-12 Potential of a charged isolated conductor
|
| Week 9 |
HAPTER 25 CAPACITANCE
25-1 What is physics?
25-2 Capacitance
25-3 Calculating the capacitance
25-4 Capacitors in parallel and in series
|
| Week 10 |
25-5 Energy stored in an electric field
25-6 Capacitor with a dielectric
25-7 Dielectrics: An atomic view
25-8 Dielectrics and Gauss’ law
|
| Week 11 |
CHAPTER 26 CURRENT AND RESISTANCE
26-1 What is physics?
26-2 Electric current
26-3 current density
26-4 Resistance and resistivity
|
| Week 12 |
26-5 Ohm’s law
26-6 A microscopic view of Ohm’s law
26-7 Power in electric circuit
26-8 Semiconductors
26-9 Superconductors
|
| Week 13 |
CHAPTER 27 CIRCUIT
27-1 What is physics?
27-2 ”Pumping” charges
27-3 Work, energy, and EMF
27-4 Calculating the current in a single-loop circuit
27-5 Other single-loop circuits
27-6 Potential difference between two points
27-7 Multiloop circuit
|
| Week 14 |
27-8 The ammeter and the voltmeter
27-9 RC-circuits
|
| Week 15 |
CHAPTER 28 MAGNETIC FIELDS
28-1 What is physics?
28-2 What produces a magnetic field?
28-3 The definition of B
28-4 Crossed fields: discovery of the electron
28-5 Crossed fields: The Hall effect
28-6 A circulating charged particle
28-7 Cyclotrons and synchrotrons
|
| Week 16 |
28-8 Magnetic force on a current-carrying wire
28-9 Torque on a current loop
28-10 The magnetic dipole moment
CHAPTER 29 MAGNETIC FIELD DUE TO CURRENTS
29-1 What is physics?
29-2 Calculating the magnetic field due to a current
|
| Week 17 |
29-3 Force between two parallel currents
29-4 Ampere’s law
29-5 Solenoids and toroids
29-6 A current-carrying coil as a magnetic dipole
|
| Week 18 |
CHAPTER 30 INDUCTION AND INDUCTANCE
30-1 What is physics?
30-2 Two experiments
30-3 Faraday’s law of induction
30-4 Lenz’s law
30-5 Induction and energy transfer
30-6 Induced electric fields
30-7 Inductors and Inductance
30-8 Self-induction
30-9 RL circuits
30-10 Energy stored in a magnetic field
30-11 Energy density of a magnetic field
30-12 Mutual induction |