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Electricity

Electricity. By Stuart Palmer. C. A. B. D. E. F. G. H. I. Write the letters for each set up below and for each arrangement write “on” or “off” depending on whether you think the bulb will glow. (your teacher may give you a bulb cell and wire to check your answers). J.

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Electricity

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  1. Electricity By Stuart Palmer

  2. C A B D E F G H I • Write the letters for each set up below and for each arrangement write “on” or “off” depending on whether you think the bulb will glow.(your teacher may give you a bulb cell and wire to check your answers) J

  3. Atoms in a conductor Conductor Metal atoms Loose outer shell electrons

  4. Conductor These electrons are free to move randomly around thus: Loose outer shell electrons

  5. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms Metal atoms Loose outer shell electrons

  6. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms Metal atoms Loose outer shell electrons

  7. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms Metal atoms Loose outer shell electrons

  8. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms Metal atoms Loose outer shell electrons

  9. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms Metal atoms Loose outer shell electrons

  10. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms Metal atoms Loose outer shell electrons

  11. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  12. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  13. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  14. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  15. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  16. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  17. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  18. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  19. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  20. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  21. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  22. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  23. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  24. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  25. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  26. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  27. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  28. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  29. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  30. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  31. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  32. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  33. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  34. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  35. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  36. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  37. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  38. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  39. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  40. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  41. Atoms and electrons in a normal metal-not conducting a current. The electrons are only those from the outer shell of the atoms

  42. When this piece of wire is connected to the power supply the loose (valence ) electrons start to drift in the same direction. These electrons moving (roughly ) in the same direction are called an electric current

  43. When this piece of wire is connected to the power supply the loose (valence ) electrons start to drift in the same direction. These electrons moving (roughly ) in the same direction are called an electric current

  44. When this piece of wire is connected to the power supply the loose (valence ) electrons start to drift in the same direction. These electrons moving (roughly ) in the same direction are called an electric current

  45. When this piece of wire is connected to the power supply the loose (valence ) electrons start to drift in the same direction. These electrons moving (roughly ) in the same direction are called an electric current

  46. When this piece of wire is connected to the power supply the loose (valence ) electrons start to drift in the same direction. These electrons moving (roughly ) in the same direction are called an electric current

  47. When this piece of wire is connected to the power supply the loose (valence ) electrons start to drift in the same direction. These electrons moving (roughly ) in the same direction are called an electric current

  48. When this piece of wire is connected to the power supply the loose (valence ) electrons start to drift in the same direction. These electrons moving (roughly ) in the same direction are called an electric current

  49. When this piece of wire is connected to the power supply the loose (valence ) electrons start to drift in the same direction. These electrons moving (roughly ) in the same direction are called an electric current

  50. When this piece of wire is connected to the power supply the loose (valence ) electrons start to drift in the same direction. These electrons moving (roughly ) in the same direction are called an electric current

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