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- "APC" means specifically for AP Physics C: Electricity & Magnetism
- "AP2" means AP Physics 2, however, the video also covers AP Physics C: Electricity & Magnetism topics.
- AP2 [1] (12:12) Electric Charge, Law of Charges, and Quantization of Charge - edpuzzle
- AP2 [1] (12:10) Introduction to Coulomb's Law or the Electric Force - edpuzzle
- AP2 [1] (13:15) Charging by Conduction and Induction - edpuzzle
- AP2 [1] (5:11) Polarization of Charge - edpuzzle
- AP2 [3] (13:18) Conservation of Charge Example Problems - edpuzzle
- AP2 [3] (7:16) Determining the Speed of the Electron in the Bohr Model of the Hydrogen Atom - edpuzzle
- AP2 [4] (16:21) Balloon Excess Charges Experiment - edpuzzle
- APC [1] (8:59) Electric Fields - edpuzzle
- APC [3] (4:09) Continuous Charge Distributions
- APC [3] (5:52) Charged Rod Electric Field - edpuzzle
- APC [4] (10:33) Thin Ring Electric Field - edpuzzle
- APC [4] (10:04) Electric Flux - edpuzzle
- APC [3] (7:00) Gauss's Law - Point Charge Electric Flux
- APC [3] (9:35) Gauss's Law - Charged Plane Electric Field - edpuzzle
- APC [3] (2:56) Gauss's Law - Charged Sphere Electric Field - edpuzzle
- APC [3] (9:51) Electric Potential Difference using Integrals - edpuzzle
- APC [2] (2:22) Work to Move a Charge in an Electric Field in Electron Volts
- APC [3] (2:00) Parallel Plates Electric Potential Difference using an Integral - edpuzzle
- APC [3] (4:59) Speed of a Proton in a Uniform Electric Field - edpuzzle
- APC [3] (8:37) Equipotential Surfaces
- APC [3] (4:15) Thin Ring Electric Field using Electric Potential
- APC [3] (8:48) 3 Properties of Conductors in Electrostatic Equilibrium - edpuzzle
- APC [3] (4:29) Irregularly Shaped Conductors in Electrostatic Equilibrium
- APC [3] (7:02) Capacitance - edpuzzle
- APC [3] (7:48) Parallel Plate Capacitors - edpuzzle
- APC [3] (8:45) Energy Stored in a Capacitor
- AP2 [2] (10:13) Introduction to Conventional Current and Direct Current with an Example Problem - edpuzzle
- APC [2] (4:54) Current and Drift Velocity - edpuzzle
- AP2 [2] (13:37) Defining Resistance, Ohmic vs. Non-Ohmic and Electric Power - edpuzzle
- AP2 [2] (9:29) Finding the Cost to Power Light Bulbs and Defining KiloWatt Hour - edpuzzle
- AP2 [2] (12:06) Resistivity - edpuzzle
- AP2 [2] (10:29) Graphing Resistivity - edpuzzle
- AP2 [2] (15:09) Electric Potential Difference and Circuit Basics - edpuzzle
- APC [2] (6:49) Resistance and Ohm's Law - edpuzzle
- APC [2] (4:51) Electric Power
- APC [2] (6:19) Electric Circuit Basics
- APC [2] (2:02) Terminal Voltage
- APC [2] (10:46) Resistor Series and Parallel Circuits - edpuzzle
- APC [2] (5:35) Capacitor Series and Parallel Circuits - edpuzzle
- APC [1] (4:13) Ammeter and Voltmeter - Where Do They Go?
- AP2 [2] (14:44) Kirchhoff's Rules of Electrical Circuits - edpuzzle
- AP2 [3] (10:26) Resistors in Series and Parallel Equation Derivations - edpuzzle
- AP2 [2] (27:37) Basic Series and Parallel Resistor Circuit Demos and Animations - edpuzzle
- AP2 [3] (15:25) Intermediate Series and Parallel Resistor Circuit Demos and Animations - edpuzzle
- AP2 [2] (6:50) Resistor Circuit Example - edpuzzle
- APC [2] (6:41) RC Circuit Basics - edpuzzle
- APC [4] (11:23) Charge and Current vs. Time in an RC Circuit
- APC [5] (4:10) RC Circuit Time Constant
- APC [2] (9:29) Magnetic Fields and Magnetic Forces on Moving Charges - edpuzzle
- APC [1] (12:06) Magnetic Force Direction (Right-Hand Rule)
- APC [3] (3:00) Magnetic Force on Current
- APC [2] (7:41) Mass Spectrometer
- APC [2] (9:58) Biot-Savart Law and Magnetic Field around a Current Carrying Wire - edpuzzle
- APC [3] (5:11) Ampère's Law
- APC [3] (10:11) Solenoid Magnetic Field
- APC [2] (5:41) Magnetic Flux
- APC [2] (3:50) Gauss's Law for Magnetism
- APC [2] (4:59) Electromagnetic Induction
- APC [2] (10:12) Lenz's Law
- APC [2] (4:22) Maxwell's Equations
- APC [3] (6:26) Motional EMF via Newton's Second Law
- APC [3] (5:54) Motional EMF via Faraday's Law
- APC [3] (1049) Induced Forces on Current Carrying Loops
- APC [2] (6:44) Electric Motor Basics
- APC [3] (5:56) Back emf
- APC [3] (7:52) Inductance
- APC [2] (3:46) Inductors vs. Resistors: Exploring the Fundamental Differences
- APC [3] (4:50) Inductance of an Ideal Solenoid
- APC [3] (6:19) Energy Stored in an Inductor
- APC [3] (5:45) LR Circuit Basics
- APC [5] (10:50) LR Circuit Equation Derivations
- APC [5] (3:37) Time Constant - LR Circuit
- APC [5] (6:02) Analogies Between LR Circuits and Falling Objects
- APC [2] (4:06) LC Circuit Basics
- APC [5] (11:22) LC Circuit Equation Derivations
- APC [3] (9:35) Visualizing LC Circuits
- APC [3] (21:40) Equations to Memorize for AP Physics C: Electricity and Magnetism
- (7:31) 8 General Suggestions for the Free Response Questions of any AP Physics Exam
- (11:57) QQT and PASA for AP Physics Explained
- (12:24) Experimental Design Questions for AP Physics Explained
- (11:06) Short Answer for AP Physics Explained
My brief review of all the topics:
- (19:20) Review of all AP Physics C Electricity and Magnetism Topics - Video 1 of 2
- (17:59) Review of all AP Physics C Electricity and Magnetism Topics - Video 2 of 2
- (5:14) Review of all AP Physics C Electricity and Magnetism Dimensions
My solutions for the publicly released 1998 AP Physics C: