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Analyzing Energy in a Bouncing Basketball

Explore the various forms of energy, including kinetic and potential energy, through the example of a bouncing basketball. Learn about the relationship between mass, velocity, and kinetic energy, as well as the concept of gravitational potential energy.

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Analyzing Energy in a Bouncing Basketball

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  1. Chapter Chapter Resources 11 Click on one of the following icons to go to that resource. physicspp.com Chapter Summary Chapter Assessment Questions Image Bank Transparencies Standardized Test Practice Video Clips and Animations

  2. Chapter Image Bank 11

  3. Chapter Image Bank 11

  4. Chapter Image Bank 11 Analyzing the Energy of a Bouncing Basketball

  5. Chapter Image Bank 11 Money Model

  6. Chapter Image Bank 11 Throwing or Catching a Ball

  7. Chapter Image Bank 11 Amount of Money in Various Forms

  8. Chapter Image Bank 11 Gravitational Potential Energy

  9. Chapter Image Bank 11 Kinetic Energy and Potential Energy of a System

  10. Chapter Image Bank 11 The Gravitational Potential Energy of the Bowling Ball

  11. Chapter Image Bank 11 Arrow Moving Through the Air

  12. Chapter Image Bank 11 Pole-vaulter Bending the Pole

  13. Chapter Image Bank 11 System Consisting of a 10.0-N Ball and Earth

  14. Chapter Image Bank 11 A Ball Rolling Down a Ramp

  15. Chapter Image Bank 11 Graph of the Changing Potential and Kinetic Energies of a Pendulum

  16. Chapter Image Bank 11 Energy Bar Graphs

  17. Chapter Image Bank 11 Conservation of Mechanical Energy

  18. Chapter Image Bank 11 Case 1: Two Objects Moving Apart in Opposite Directions

  19. Chapter Image Bank 11 Case 2: Moving Object Coming to Rest and the Stationary Object Beginning to Move and Case 3: Two Objects Sticking Together and Moving As One

  20. Chapter Image Bank 11 Three Kinds of Collisions

  21. Chapter Image Bank 11 Kinetic Energy

  22. Chapter Image Bank 11 A Bullet Going Through a Motionless Wooden Block

  23. Chapter Image Bank 11 A Child Sliding Down a Playground Slide

  24. Chapter Image Bank 11 Two Sections of Grooved Track Placed Together

  25. Chapter Image Bank 11 The Support Block Moved so That It Is Under the Midsection of the Inclined Track

  26. Chapter Image Bank 11 The Support Block Moved to a Point about Three-quarters down the Length of the Inclined Track

  27. Chapter Image Bank 11 Running Smarter

  28. Chapter Image Bank 11 Chapter Assessment (Q. 50)

  29. Chapter Image Bank 11 Chapter Assessment (Q. 60)

  30. Chapter Image Bank 11 Chapter Assessment (Q. 69)

  31. Chapter Image Bank 11 Chapter Assessment (Q. 71)

  32. Chapter Image Bank 11 Chapter Assessment (Q. 74)

  33. Chapter Image Bank 11 Chapter Assessment (Q. 78)

  34. Chapter Image Bank 11 Chapter Assessment (Q. 91)

  35. Chapter Image Bank 11 Standardized Test Practice (Q. 2)

  36. Chapter Image Bank 11 Standardized Test Practice (Q. 7)

  37. Chapter Transparencies 11

  38. Chapter Transparencies 11 Transparency 11-1

  39. Chapter Transparencies 11 Transparency 11-2

  40. Chapter Transparencies 11 Transparency 11-4

  41. Chapter Video Clips and Animations 11 Throwing a Ball

  42. Chapter Video Clips and Animations 11 Catching a Ball

  43. Chapter Video Clips and Animations 11 Kinetic Energy and Potential Energy of a System (1)

  44. Chapter Video Clips and Animations 11 Kinetic Energy and Potential Energy of a System (2)

  45. Chapter Video Clips and Animations 11 Gravitational Potential Energy Click image to view the movie.

  46. Chapter Video Clips and Animations 11 Skiing

  47. Chapter Video Clips and Animations 11 Pendulums

  48. Chapter Video Clips and Animations 11 Conservation of Mechanical Energy Click image to view the movie.

  49. Section Chapter Summary 11.1 The Many Forms of Energy • The kinetic energy of an object is proportional to its mass and the square of its velocity. • The rotational kinetic energy of an object is proportional to the object’s moment of inertia and the square of its angular velocity. • When the Earth is included in a system, the work done by gravity is replaced by gravitational potential energy.

  50. Section Chapter Summary 11.1 The Many Forms of Energy • The gravitational potential energy of an object depends on the object’s weight and its distance from Earth’s surface. • The reference level is the position where the gravitational potential energy is defined to be zero. • Elastic potential energy may be stored in an object as a result of its change in shape.

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