Peoples Physics Book Version-2

(Marvins-Underground-K-12) #1

  • 1 Units and Problem Solving Version Contents

    • 1.1 The Big Idea

    • 1.2 Units Concepts

    • 1.3 Frequently Used Measurements, Greek Letters, and Prefixes

    • 1.4 Applications and Examples

    • 1.5 Units and Problem Solving Problem Set



  • 2 Energy ConservationVersion

    • 2.1 The Big Idea

    • 2.2 Types of Energy

    • 2.3 Key Concepts

    • 2.4 Key Applications

    • 2.5 Examples

    • 2.6 Energy Conservation Problem Set

    • 2.7 References



  • 3 Energy Conservation Appendix

    • 3.1 Equivalence between [2] and [3]

    • 3.2 References



  • 4 One Dimensional Motion Version

    • 4.1 The Big Idea

    • 4.2 Key Definitions

    • 4.3 Deriving the Kinematics Equations

    • 4.4 Hints for Problems

    • 4.5 One Dimensional Examples

    • 4.6 One-Dimensional Motion Problem Set



  • 5 Two Dimensional and Projectile Motion Version

    • 5.1 The Big Idea

    • 5.2 Solving Two Dimensional Motion Problems

    • 5.3 Key Concepts

    • 5.4 Two Dimensional Example

    • 5.5 Two Dimensional Motion Problem Set



  • 6 Newtons Laws Version

    • 6.1 The Big Idea

    • 6.2 Newton’s Laws Explained

    • 6.3 What are Forces?

    • 6.4 Common Forces

    • 6.5 Short Summary

    • 6.6 Free-Body Diagram Example

    • 6.7 Newton’s Laws Problem Set http://www.ck12.org Contents



  • 7 Centripetal Forces Version

    • 7.1 Forces so Far

    • 7.2 Centripetal Forces

    • 7.3 Characterizing The Force and Motion

    • 7.4 Gravity as a Centripetal Force

    • 7.5 Key Concepts

    • 7.6 Key Applications

    • 7.7 Examples

    • 7.8 Centripetal Forces Problem Set



  • 8 Momentum Conservation Version

    • 8.1 The Big Idea

    • 8.2 Key Equations and Definitions

    • 8.3 Key Concepts

    • 8.4 Key Applications

    • 8.5 Examples

    • 8.6 Momentum Conservation Problem Set



  • 9 Energy and Force Version

    • 9.1 The Big Idea

    • 9.2 Math of Force, Energy, and Work

    • 9.3 Work-Energy Principle

    • 9.4 Summary of Key Equations and Definitions

    • 9.5 Key Concepts

    • 9.6 Key Applications

    • 9.7 Work and Energy Examples

    • 9.8 Energy and Force Problem Set



  • 10 Rotational Motion Version

    • 10.1 The Big Idea

    • 10.2 Formalizing Rotational Motion

    • 10.3 Analogies Between Linear and Rotational Motion

    • 10.4 Example

    • 10.5 Rotational Motion Problem Set

    • 10.6 References



  • 11 Simple Harmonic Motion Version

    • 11.1 The Big Idea

    • 11.2 Key Concepts

    • 11.3 Key Equations and Definitions

    • 11.4 Examples

    • 11.5 SHM Problem Set



  • 12 Wave Motion and Sound Version

    • 12.1 The Big Idea

    • 12.2 Key Concepts

    • 12.3 Key Equations

    • 12.4 Key Applications

    • 12.5 Examples

    • 12.6 Wave Motion Problem Set

    • 12.7 References Contents http://www.ck12.org



  • 13 Electricity Version

    • 13.1 The Big Idea

    • 13.2 Electric Forces and Fields

    • 13.3 The Coulomb Force Law

    • 13.4 Fields Due to Several Charges

    • 13.5 Electric Potential

    • 13.6 Electric Field of a Parallel Plate Capacitor

    • 13.7 Summary of Relationships

    • 13.8 Key Concepts

    • 13.9 Key Applications

    • 13.10 Electricity Problem Set



  • 14 Electric Circuits Version

    • 14.1 The Big Ideas

    • 14.2 Circuit Basics

    • 14.3 Capacitors in Circuits (Steady-State)

    • 14.4 Capacitors in Series and in Parallel

    • 14.5 Charging and Discharging Capacitors (Transient)

    • 14.6 Capacitor Example

    • 14.7 Key Terms

    • 14.8 Electric Circuits Problem Set



  • 15 Magnetism Version

    • 15.1 The Big Idea

    • 15.2 Sources of Magnetic Fields

    • 15.3 Effects of Magnetic Fields

    • 15.4 Magnetism Problem Set



  • 16 Electric Circuits Advanced Topics Version

    • 16.1 The Big Idea

    • 16.2 Key Equations

    • 16.3 Examples

    • 16.4 Advanced Topics Problem Set



  • 17 Light Version

    • 17.1 The Big Idea



  • 18 Fluids Version

    • 18.1 The Big Idea



  • 19 Thermodynamics and Heat Engines Version

    • 19.1 The Big Ideas

    • 19.2 Molecular Kinetic Theory of a Monatomic Ideal Gas

    • 19.3 The Laws of Thermodynamics

    • 19.4 Heat Engines

    • 19.5 References



  • 20 Gas Laws

    • 20.1 Thermodynamics

    • 20.2 References



  • 21 Heat Engines and The Laws of Thermodynamics http://www.ck12.org Contents

    • 21.1 The Laws of Thermodynamics

    • 21.2 Heat Engines

    • 21.3 Examples

    • 21.4 Thermodynamics and Heat Engines Problem Set



  • 22 BCTherm

    • 22.1 Microscopic Description of an Ideal Gas



  • 23 Special and General Relativity Version

    • 23.1 The Big Ideas

    • 23.2 Relativity Example

    • 23.3 Relativity Problem Set



  • 24 Radioactivity and Nuclear Physics Version

    • 24.1 The Big Idea

    • 24.2 Key Concepts

    • 24.3 Decay Equations

    • 24.4 Key Applications

    • 24.5 Radioactivity and Nuclear Physics Problem Set



  • 25 Standard Model of Particle Physics Version

    • 25.1 The Big Idea

    • 25.2 Matter

    • 25.3 Interactions

    • 25.4 Rules

    • 25.5 Resources

    • 25.6 Standard Model of Particle Physics Problem Set



  • 26 Feynman’s Diagrams Version

    • 26.1 The Big Idea

    • 26.2 Key Concepts

    • 26.3 Example

    • 26.4 Feynman Diagrams Problem Set



  • 27 Quantum Mechanics Version

    • 27.1 The Big Idea



  • 28 The Physics of Global Warming Version

    • 28.1 The Big Idea

    • 28.2 The Key Concepts (Possible Effects That Can Accelerate Global Warming)

    • 28.3 The Key Concepts (Physical Laws and Observations)

    • 28.4 The Key Applications

    • 28.5 Problem Set Chapter



  • 29 Answers to Selected Problems Version

    • 29.1 Appendix A: Answers to Selected Problems (3e)



  • 30 Equations and Fundamental Constants Version

  • 31 Random Walks

    • 31.1 Introduction



Free download pdf