AP Physics 2
Electric Circuits
Introduction
Electric Current
Resistance and Resistivity Ohm's Law
Voltage
Electric Circuits
Circuit Analysis
Combinations of Resistors
Equivalent Resistance
Two Resistors in Series
Two Resistors in Parallel
Combining More Than Two Resistors
Capacitors in Circuits
Capacitors in Steady State
Combinations of Capacitors
Altering a Capacitor's Capacitance
Resistance-Capacitance (RC) Circuits
Magnetism and Electromagnetic Induction
Introduction
Magnetic Fields
Bar Magnets
The Magnetic Force on a Moving Charge
The Magnetic Force on a Current-Carrying Wire
Magnetic Fields Created by Current-Carrying Wires
Solenoids Create Uniform Fields
Motional EMF Faraday's Law of Electromagnetic Induction
Geometric and Physical Optics
Introduction
Electromagnetic Waves
The Electromagnetic Spectrum
Interference and Diffraction
Reflection and Refraction
Total Internal Reflection Mirrors
Ray Tracing for Mirrors
Thin Lenses
Ray Tracing for Lenses
Using Equations to Answer Questions About the image
Quantum, Atomic, and Nuclear Physics
Introduction
Photons and the Photoelectric Effect
The Bohr Model of the Atom
Wave-Particle Duality
The Wave Function
Relativity
Nuclear Physics
Nuclear Reactions
Disintegration Energy
Fluids
Introduction
Density
Pressure
Hydrostatic Pressure
Buoyancy
The Continuity Equation: Flow Rate and Conservation of Mass
Bernoulli's Equation: Conservation of Energy in Fluids
Thermodynamics
Introduction
The Kinetic Theory of Gases
The Maxwell-Boltzmann Distribution
The Laws of Thermodynamics
Heat Transfer
Electric Forces and Fields
Introduction
Electric Charge
Coulomb's Law
The Electric Field
Conductors and Insulators
Electric Potential and Capacitance
Introduction
Electrical Potential Energy
Electric Potential
Equipotential Curves and Equipotential Maps
The Electric Potential of a Uniform Field
Capacitors and Capacitance
Electric Field and Capacitors
The Energy Stored in a Capacitor
Capacitors and Dielectrics.