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  • 1 Introduction: The Nature of Science and Physics
  • 2 Kinematics
  • 3 Two-Dimensional Kinematics
  • 4 Dynamics: Force and Newton's Laws of Motion
  • 5 Further Applications of Newton's Laws: Friction, Drag, and Elasticity
  • 6 Gravitation and Uniform Circular Motion
  • 7 Work, Energy, and Energy Resources
  • 8 Linear Momentum and Collisions
  • 9 Statics and Torque
  • 10 Rotational Motion and Angular Momentum
  • 11 Fluid Statics
  • 12 Fluid Dynamics and Its Biological and Medical Applications
  • 13 Temperature, Kinetic Theory, and the Gas Laws
  • 14 Heat and Heat Transfer Methods
  • 15 Thermodynamics
  • 16 Oscillatory Motion and Waves
  • 17 Physics of Hearing
  • 18 Electric Charge and Electric Field
  • 19 Electric Potential and Electric Field
  • 20 Electric Current, Resistance, and Ohm's Law
  • 21 Circuits, Bioelectricity, and DC Instruments
  • 22 Magnetism
  • 23 Electromagnetic Induction, AC Circuits, and Electrical Technologies
  • 24 Electromagnetic Waves
  • 25 Geometric Optics
  • 26 Vision and Optical Instruments
  • 27 Wave Optics
  • 28 Special Relativity
  • 29 Introduction to Quantum Physics
  • 30 Atomic Physics
  • 31 Radioactivity and Nuclear Physics
  • 32 Medical Applications of Nuclear Physics
  • 33 Particle Physics
  • 34 Frontiers of Physics
  • Appendix A: Atomic Masses
  • Appendix B: Selected Radioactive Isotopes
  • Appendix C: Useful Information
  • Appendix D: Glossary of Key Symbols and Notation

Pedagogical foundation and features

College Physics for AP ® Courses is organized so that topics are introduced conceptually with a steady progression to precise definitions and analytical applications. The analytical, problem-solving aspect is tied back to the conceptual before moving on to another topic. Each introductory chapter, for example, opens with an engaging photograph relevant to the subject of the chapter and interesting applications that are easy for most students to visualize.

  • Connections for AP ® Courses introduce each chapter and explain how its content addresses the AP ® curriculum.
  • Worked Examples Examples start with problems based on real-life situations, then describe a strategy for solving the problem that emphasizes key concepts. The subsequent detailed mathematical solution also includes a follow-up discussion.
  • Problem-solving Strategies are presented independently and subsequently appear at crucial points in the text where students can benefit most from them.
  • Misconception Alerts address common misconceptions that students may bring to class.
  • Take-Home Investigations provide the opportunity for students to apply or explore what they have learned with a hands-on activity.
  • Real World Connections highlight important concepts and examples in the AP ® framework.
  • Applying the Science Practices includes activities and challenging questions that engage students while they apply the AP ® science practices.
  • Things Great and Small explains macroscopic phenomena (such as air pressure) with submicroscopic phenomena (such as atoms bouncing off of walls).
  • PhET Explorations link students to interactive PHeT physics simulations, developed by the University of Colorado, to help them further explore the physics concepts they have learned about in their book module.

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Source:  OpenStax, College physics for ap® courses. OpenStax CNX. Nov 04, 2016 Download for free at https://legacy.cnx.org/content/col11844/1.14
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