Licensing

Why Write the Book, and, Why Release it for Free?

Volume A: Kinetics, Statics, and Thermodynamics

• 1A: Mathematical Prelude
• 2A: Conservation of Mechanical Energy I: Kinetic Energy & Gravitational Potential Energy
• 3A: Conservation of Mechanical Energy II: Springs, Rotational Kinetic Energy
• 4A: Conservation of Momentum
• 5A: Conservation of Angular Momentum
• 6A: One-Dimensional Motion (Motion Along a Line): Definitions and Mathematics
• 7A: One-Dimensional Motion: The Constant Acceleration Equations
• 8A: One-Dimensional Motion: Collision Type II
• 9A: One-Dimensional Motion Graphs
• 10A: Constant Acceleration Problems in Two Dimensions
• 11A: Relative Velocity
• 12A: Gravitational Force Near the Surface of the Earth, First Brush with Newton’s 2nd Law
• 13A: Freefall, a.k.a. Projectile Motion
• 14A: Newton’s Laws #1: Using Free Body Diagrams
• 15A: Newton’s Laws #2: Kinds of Forces, Creating Free Body Diagrams
• 16A: Newton’s Laws #3: Components, Friction, Ramps, Pulleys, and Strings
• 17A: The Universal Law of Gravitation
• 18A: Circular Motion - Centripetal Acceleration
• 19A: Rotational Motion Variables, Tangential Acceleration, Constant Angular Acceleration
• 20A: Torque & Circular Motion
• 21A: Vectors - The Cross Product & Torque
• 22A: Center of Mass, Moment of Inertia
• 23A: Statics
• 24A: Work and Energy
• 25A: Potential Energy, Conservation of Energy, Power
• 26A: Impulse and Momentum
• 27A: Oscillations: Introduction, Mass on a Spring
• 28A: Oscillations: The Simple Pendulum, Energy in Simple Harmonic Motion
• 29A: Waves: Characteristics, Types, Energy
• 30A: Wave Function, Interference, Standing Waves
• 31A: Strings, Air Columns
• 32A: Beats and the Doppler Effect
• 33A: Fluids: Pressure, Density, Archimedes' Principle
• 34A: Pascal’s Principle, the Continuity Equation, and Bernoulli’s Principle
• 35A: Temperature, Internal Energy, Heat and Specific Heat Capacity
• 36A: Heat: Phase Changes
• 37A: The First Law of Thermodynamics

Volume B: Electricity, Magnetism, and Optics

• B1: Charge & Coulomb's Law
• B2: The Electric Field - Description and Effect
• B3: The Electric Field Due to one or more Point Charges
• B4: Conductors and the Electric Field
• B5: Work Done by the Electric Field and the Electric Potential
• B6: The Electric Potential Due to One or More Point Charges
• B7: Equipotential Surfaces, Conductors, and Voltage
• B8: Capacitors, Dielectrics, and Energy in Capacitors
• 9B: Electric Current, EMF, and Ohm's Law
• B10: Resistors in Series and Parallel; Measuring I & V
• B11: Resistivity and Power
• B12: Kirchhoff’s Rules, Terminal Voltage
• B13: RC Circuit
• B14: Capacitors in Series & Parallel
• B15: Magnetic Field Introduction - Effects
• B16: Magnetic Field - More Effects
• B17: Magnetic Field: Causes
• B18: Faraday's Law and Lenz's Law
• B19: Induction, Transformers, and Generators
• B20: Faraday’s Law and Maxwell’s Extension to Ampere’s Law
• B21: The Nature of Electromagnetic Waves
• B22: Huygens’s Principle and 2-Slit Interference
• B23: Single-Slit Diffraction
• B24: Thin Film Interference
• B25: Polarization
• B26: Geometric Optics, Reflection
• B27: Refraction, Dispersion, Internal Reflection
• B28: Thin Lenses - Ray Tracing
• B29: Thin Lenses - Lens Equation, Optical Power
• B30: The Electric Field Due to a Continuous Distribution of Charge on a Line
• B31: The Electric Potential due to a Continuous Charge Distribution
• B32: Calculating the Electric Field from the Electric Potential
• B33: Gauss’s Law
• B34: Gauss’s Law Example
• B35: Gauss’s Law for the Magnetic Field and Ampere’s Law Revisited
• B36: The Biot-Savart Law
• B37: Maxwell’s Equations

Index

Glossary

Detailed Licensing