AP Physics C: Elect. & Magnetism

Unit 1 - Electrostatics
Electric Fields – Lecture
15 Topics
P19-010 – Introduction to Electric Charge
P19-020 – Electric Charge
P19-030 – Electric Fields & Electric Field Lines
P19-040 – Principle of Superposition
P19-050 – Electric Field & Symmetry
P19-060 – Electric Field Created by a Point Charge
P19-070 – Electric Force
P19-080 – Electric Force between Two Point Charges: Coulomb’s Law
P19-100 – Computation: finite rod of charge
P19-110 – Computation: semicircle of charge
P19-120 – Computation: ring of charge
P19-130 – Computation: disk of charge
P19-140 – Electric Dipole in a Uniform Electric Field
P19-150 – Application: dielectric materials
P19-160 – Electric Field Created by an Electric Dipole
Electric Fields – Problems
10 Topics
P19B2015 – Plastic Plate & Charged Ball
P19R2015 – Turning Around in E
P19R2015 – Projectile Motion Through E
P19B2015 – Plastic Balls & Fur
P19R2016 – Balancing Act
P19B2016 – Charged Plate & Point Charge
P19R2015 – Three Point Charge Distribution
P19B2014 – Uniformly Charged Rod of Finite Length
P19R2015 – Semicircle with Non-Uniform Charge Density
P19L2013 – Two Electric Dipoles
Gauss’s Law – Lecture
9 Topics
P20-010 – Useful Definitions
P20-020 – Electric Flux
P20-030 – How Electric Flux Varies
P20-040 – Classic Computations of Electric Flux
P20-045 – Gauss’s Law
P20-060 – Application: infinite rod of charge
P20-070 – Application: infinite sheet of charge
P20-080 – Application: solid sphere of charge
P20-090 – Electric Field at the Surface of a Conductor
Gauss’s Law – Problems
13 Topics
P20R2015 – About Electric Flux
P20B2017 – Infinite Wire of Unknown Charge
P20R2015 – Infinite Slab of Charge
P20B2014 – Solid Insulating Cylinder
P20B2014 – Three False Statements
P20B2015 – Spherical Off-Center Cavity
P20B2015 – Concentric Metal Sphere & Shell
P20R2015 – Spherical Metallic Shell
P20B2018 – Concentric Conducting Shells
P20B2019 – Long Wire Inside a Metal Tube
P20B2015 – Overlapping Spheres
P20B2015 – Force From a Uniformly Charged Sphere
P20B2018 – Charged Wire and Point Charge
Electric Potential – Lecture
17 Topics
P21-010 – Conceptual Introduction to Electric Potential
P21-020 – Electric Potential Created by a Charge Distribution
P21-030 – Deriving Electric Potential Energy
P21-040 – Electric Potential Difference: voltage
P21-050 – Electric Potential & Electric Potential Energy
P21-060 – Relationship Between Electric Field and Electric Potential
P21-070 – Principle of Superposition
P21-080 – Equipotentials
P21-090 – Electric Potential Created by a Point Charge
P21-100 – Electric Potential Created by a Dipole
P21-110 – Electric Potential of a Line of Charge
P21-120 – Electric Potential of a Semicircular Wire
P21-130 – Electric Potential of a Ring of Charge
P21-140 – Electric Potential of a Disk of Charge
P21-150 – Electric Potential at the Surface of a Conductor
P21-160 – Electronvolt and Conservation of Energy
P21-170 – Electrostatic Energy of a System of Point Charges
Electric Potential – Problems
13 Topics
P21B2015 – E & V of Three Charges
P21R2015 – Electrostatics of Three Point Charges
Connecting Spheres
P21L2013 – Washer of Charge
P21B2014 – Four Point Charges
P21B2018 – Large Plate Attracting a Ball of Charge
P21B2019 – Two Charged Particles
P21R2015 – Shooting an Electron Toward a Capacitor
P21B2016 – Electrostatic Oscillator
P21B2017 – Two and Three Point Charges
Concentric Cylindrical Shells
P21S2017 – Potential of a Spherical Shell
P21R2015 – Work and Potential Energy
Unit 2 - Conductors, Capacitors, Dielectrics
Capacitors – Lecture
9 Topics
P22-010 – Capacitors and Capacitance
P22-020 – Parallel-Plate Capacitor
P22-030 – Cylindrical-Plate Capacitor
P22-040 – Spherical-Plate Capacitor
P22-050 – Capacitors in Parallel
P22-060 – Capacitors in Series
P22-070 – Energy Stored in a Capacitor
P22-080 – Effect of a Dielectric Between Capacitor Plates
P22-090 – Computing C by Integration
Capacitors – Problems
11 Topics
P22R2015 – Conceptual Questions About Capacitors
P22B2018 – Sequence with Parallel Plates
P22B2015 – Charge Moving in a Capacitor
P22B2017 – Miscellaneous Capacitor Questions
P22B2019 – Charge Traveling Between Parallel Plates
P22R2015 – Electrons & Protons in a Capacitor
P22B2014 – Study of a Parallel Plate Capacitor
Spherical Capacitor
Cylindrical Capacitor
P22B2015 – Storing Charge in Capacitors
P22S2013 – Equivalent Capacitance
Unit 3 - Electric Circuits
DC Circuits – Lecture
15 Topics
P23-010 – Electric Current
P23-020 – Current Density
P23-030 – Drift Velocity
P23-040 – Resistivity and Conductivity
P23-050 – Circuit Component: the resistor
P23-060 – Assembling Resistors in Parallel and Series
P23-070 – Circuit Component: the capacitor
P23-080 – Assembling Capacitors in Parallel and Series
P23-090 – Circuit Component: the battery
P23-100 – Generator Convention & Receptor Convention
P23-110 – Kirchhoff’s Laws
P23-120 – Electric Power
P23-130 – The RC Circuit
P23-140 – Short-Term and Long-Term Behavior
P23-150 – Time Constant of the RC Circuit
DC Circuits – Problems
18 Topics
P23B2013 – Of Drift Velocity
P23B2014 – Brightness of Bulbs
P23B2015 – Monitoring Liquid He Levels
P23B2016 – Three Resistors, Three Batteries
P23B2018 – Circuit with Bulbs
P23B2018 – Power Supplied or Consumed
P23R2015 – Equivalent Resistance
P23R2017 – Two Circuits
P23B2019 – Two Loops & a Shared Resistor
Cylindrical Resistors
P23B2014 – Charge & Energy in Capacitors
P23B2015 – Power & Charge
P23S2017 – Resistors & Capacitors
P23B2016 – Two RC Circuits
RC Circuit
P23B2017 – Equivalent Capacitor & Resistor
P23B2019 – Multiple Rs and Cs
P23R2016 – RC Circuit with a Switch
Unit 4 - Magnetic Fields
Magnetism – Lecture
20 Topics
P24-010 – Phenomenon
P24-020 – Magnetic Field & Magnetic Field Lines
P24-030 – Magnetic Field & Symmetry
P24-040 – Principle of Superposition
P24-050 – Reminder: cross product of two vectors
P24-060 – Magnetic Force on a Moving Point Charge
P24-070 – Magnetic Force on a Current
P24-080 – Motion of Charged Particles through B
P24-090 – The Lorentz Force
P24-100 – Biot-Savart Law
P24-110 – Biot-Savart Application: semicircular wire of current
P24-120 – Biot-Savart Application: ring of current
P24-130 – Biot-Savart Application: field on the axis of a ring of current
P24-140 – Biot-Savart Application: finite wire of current
P24-150 – Ampere’s Law
P24-160 – Ampere’s Law: infinite wire of current
P24-170 – Ampere’s Law: infinite slab of current
P24-180 – Ampere’s Law: infinite solenoid
P24-190 – Ampere’s Law: toroid with current
P24-200 – Magnetic Dipole
Magnetism – Problems
15 Topics
P24B2016 – Charge Moving Between Wires
P24R2015 – Linear Motion Through E and B
P24B2015 – Two Vertical Wires
P24B2019 – Charged Wire and Moving Charge
P24S2017 – E and B Fields from an Infinite Wire
P24B2014 – Twirling Through E and B
P24B2017 – Forces on a Current
P24R2015 – Two Parallel Wires
Force on Current-Carrying Wires
P24S2017 – Suspended Wire of Current
P24S2014 – Arc of Current
P24B2015 – Two Semicircles of Current
P24B2013 – B-Field Created by Three Wires
P24R2015 – Hollow Cylindrical Conductor
P24B2018 – Two Wires then Three
Unit 5 - Electromagnetism
Induction – Lecture
19 Topics
P25-010 – Phenomenon
P25-020 – Motional EMF: moving rod in a magnetic field
P25-030 – Motional EMF: coil moving through a magnetic field
P25-040 – Magnetic Flux
P25-050 – How Magnetic Flux Varies
P25-060 – Classic Computations of Magnetic Flux
P25-070 – Lenz’s Law
P25-080 – Faraday’s Law
P25-090 – Faraday’s Law: conducting ring in a varying magnetic field
P25-100 – Faraday’s Law: conducting rod on parallel rails
P25-110 – Faraday’s Law: rotating loop in a magnetic field
P25-120 – Mutual Inductance & Self-Inductance
P25-140 – Circuit Component: inductor
P25-150 – Energy Stored in an Inductor
P25-170 – The RL Circuit
P25-180 – Short-Term & Long-Term Behavior
P25-190 – Time Constant of the RL Circuit
P25-200 – Assembling Inductors in Parallel
P25-210 – Assembling Inductors In Series
Induction – Problems
13 Topics
P25R2015 – Jumping Ring
P25B2015 – Tilted Coil
P25B2017 – Number of Coils of a Square Loop
P25B2018 – Rectangular Loop Straddling a Varying B
P25R2016 – Loop Traveling Through B
P25B2016 – Flux from a Solenoid
P25R2015 – Rod on Rails
P25B2014 – Rod on Non-Parallel Rails
P25B2013 – Two Rods with Different Speeds
RL Circuit Behavior
P25B2015 – Two Competing Inductors
P25R2015 – Behavior of an Inductor with Time
P25R2015 – Mutual & Self-Inductance
EM Waves – Lecture
5 Topics
P27-010 – The Ampere-Maxwell Law
P27-020 – Maxwell’s Equations
P27-030 – EM Waves
P27-040 – EM Wave Spectrum
P27-050 – Properties of EM Waves
EM Waves – Problems
2 Topics
P27R2016 – Electromagnetic Wave
P27B2016 – Satellite Signal
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Electric Fields – Lecture

AP Physics C: Elect. & Magnetism Electric Fields – Lecture
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