Sunday, April 6, 2008

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AP Physics B Semester 1
Unit 1: Newtonian Mechanics
Chapter 1: Kinematics
Lesson 1: Motion in One Dimension
Lesson 2: Motion in Two Dimensions

Chapter 2: Newton's Laws of Motion
Lesson 3: Newton's First Law
Lesson 4: Newton's Second Law
Lesson 5: Newton's Third Law
Lesson 6: Applications of Newton's Laws

Chapter 3: Work, Energy, and Power
Lesson 7: Work and Work-Energy Theorem
Lesson 8: Conservative Forces and Potential Energy
Lesson 9: Conservation of Energy
Lesson 10: Power

Chapter 4: Systems of Particles, Linear Momentum
Lesson 11: Center of Mass
Lesson 12: Impulse and Momentum
Lesson 13: Conservation of Linear Momentum, Collisions

Chapter 5: Circular Motion and Rotation
Lesson 14: Uniform Circular Motion
Lesson 15: Torque and Rotational Statics

Chapter 6: Oscillations and Gravitation
Lesson 16: Simple Harmonic Motion
Lesson 17: Mass on a Spring
Lesson 18: Pendulum and Other Oscillations
Lesson 19: Newton's Law of Gravity
Lesson 20: Orbits of Planets and Satellites

Unit 2: Fluid Mechanics and Thermal Physics
Chapter 7: Fluid Mechanics
Lesson 21: Hydrostatic Pressure
Lesson 22: Buoyancy
Lesson 23: Fluid Flow Continuity
Lesson 24: Bernoulli's Equation

Chapter 8: Temperature and Heat
Lesson 25: Mechanical Equivalent of Heat
Lesson 26: Specific and Latent Heat
Lesson 27: Heat Transfer and Thermal Expansion

Chapter 9: Kinetic Theory and Thermodynamics
Lesson 28: Ideal Gases
Lesson 29: Laws of Thermodynamics

AP Physics B Semester II

Unit 3: Electricity and Magnetism

Chapter 10: Electrostatics
Lesson 30: Electric Charges and Coulomb's Law
Lesson 31: Electric Fields
Lesson 32: Electric Potential

Chapter 11: Conductors and Capacitors
Lesson 33: Electrostatics with Conductors
Lesson 34: Capacitors

Chapter 12: Electric Circuits
Lesson 35: Current, Resistance, Power
Lesson 36: DC Circuits with Batteries and Resistors
Lesson 37: Capacitors in Circuits

Chapter 13: Magnetostatics
Lesson 38: Forces on Moving Charges
Lesson 39: Forces on Current-carrying Wires in Magnetic Fields
Lesson 40: Fields of Long, Current-carrying Wires

Chapter 14: Electromagnetism
Lesson 41: Electromagnetic Induction

Unit 4: Waves and Optics

Chapter 15: Wave Motion
Lesson 42: Wave Basics
Lesson 43: Properties of Traveling Waves
Lesson 44: Properties of Standing Waves
Lesson 45: Sound Waves and Doppler Shift

Chapter 16: Physical Optics
Lesson 46: Interference and Diffraction
Lesson 47: Dispersion of Light and the Electromagnetic Spectrum

Chapter 17: Geometric Optics
Lesson 48: Reflection and Refraction
Lesson 49: Mirrors
Lesson 50: Lenses

Unit 5: Atomic and Nuclear Physics
Chapter 18: Atomic Physics and Quantum Effect
Lesson 51: Photons and the Photoelectric Effect
Lesson 52: Atomic Energy Levels
Lesson 53: Wave-particle Duality

Chapter 19: Nuclear Physics
Lesson 54: Nuclear Reactions
Lesson 55: Mass-Energy Equivalence

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