1. Developed for CVCA Physics By Dick Heckathorn 16 March 2K + 5 Investigating Batteries and Bulbs Summary

2. A. HOW MANY WAYS CAN YOU MAKE A LIGHT BULB LIGHT? Materials: battery bulb one conducting wire Page 1

3. 1. Using your materials, make your bulb light. (Be careful... If you begin to feel heat in the wire remove the wire from the battery.) Page 1

4. 2. How many different ways can you get your bulb to light? (1) Page 1

5. 3. Draw pictures below of the ways that you got the bulb to light and ways that you did not get it to light. WAYS BULB LIGHT (2) WAYS BULB DID NOT LIGHT (2) Page 1

6. B HOW CAN YOU MAKE THE BULB LIGHT WHEN IT IS NOT TOUCHING THE BATTERY? 1.Using your materials, make the bulb light when it is not touching the battery. Page 1

7. 2.Draw wires on the picture below to show how you got the bulb to light. (1) Page 1

9. 3.Where must the wire(s) touch the battery to light the bulb? (1) Page 1

11. 4.Where must the wire(s) touch the bulb for it to light? (1) Page 1

13. 5. Make a rule about lighting the bulb using your observations. (2) Page 1

14. Look at top and bottom of a battery to see where good contact can be made. Page 1

15. C. HOW DOES A CHRISTMAS TREE BULB COMPARE TO THE BULB YOU HAVE BEEN USING flashlight bulb Christmas tree bulb Page 1

16. 1.Examine and then draw what you see when you look at the inside the flashlight bulb. (1) Page 1

18. 2.Pull the Christmas tree bulb out of its holder. Draw what you see when you look at it. (1) Page 1

20. 3.Again look at the Christmas tree bulb. Do you see anything that you did not see before. If so, draw it. (1) Page 1

22. 4.What is the path that the electricity must follow in the bulb? (1) Page 1

24. Filament Opens Insulation on jumper melts Current takes alternate path

25. Page 1 How 100-Bulb Christmas Strand is Connected 50 bulbs

26. D. DOES THE SIZE OF THE BATTERY CHANGE THE BRIGHTNESS OF THE BULB? batteries - D, C, AA, AAA, Ni-Cd, NIMH, Polaroid Camera Christmas tree bulb Page 2

27. 1.Observe the brightness of the bulb when connected to the C- cell battery. Page 2

28. 2.How do you think the brightness of the bulb (when connected to the D-cell) will compare when connected to the C-Cell battery? (1) Page 2

29. 3.How does the brightness of the bulbs compare? (4) Page 2

30. 4.Explain why you get the results that you did? (2) Page 2

31. E. HOW IS THE DRY CELL CONSTRUCTED? 1.Examine the sectional view of the battery. The plus terminal is the carbon rod and the negative terminal is the zinc case. Page 2

32. When the cell is operating, zinc atoms from the negative plate form zinc ions. At the positive carbon rod, ammonium ions gain electrons, forming ammonia and hydrogen gas. Page 2

33. The ammonia gas is taken up by the zinc chloride. The hydrogen reacts with the manganese dioxide. Since carbon and zinc are used as the electrodes, the dry cell has a voltage of approximately 1.5 volts. Page 2

34. If the battery is in constant use, a build-up of gas may occur and cause the case to burst at the weakest point. Page 2

35. Leakage of the battery may then occur with corrosion of the parts near the battery. Therefore it is essential that one take the batteries out before this occurs. Page 2

36. F HOW IS A STORAGE BATTERY MADE? 1.A storage battery is one that can be recharged repeatedly to its original condition. The lead-acid battery is shown. Page 2

37. Another type of storage battery is the nickel-cadmium battery. Other types of storage batteries are the NiCd, NiMH and Rayovac rechargeables. The NiCd and NiMH produce 1.2 volts, the Rayovac 1.5 volts. Page 2

38. Ask your instructor to see both the Ni-Cd and lead-acid battery. Page 2

39. G WHERE ARE THE WIRES IN YOUR MYSTERY PACKAGE? Materials: two pieces of cardboard, masking tape, or box Christmas tree bulb battery brass fasteners Page 2

40. 1. Look at the apparatus. (Do not open it.) Page 2

41. 2.You should see the heads of 6 brass fasteners on one side of the cardboard. Page 2

42. 3.Copper wires under the lid are attached to some of the brass fasteners. Page 2

43. 4.Using the Christmas tree bulb, and a battery, how can you find out where the wires are without opening the box? (1) Page 2

44. 5.Is there a connection between fastener 1 and fastener 2? Page 3

45. 6.Test all the other possible pairs listed below. Page 3

46. 7.Record your observations in the following chart. (3) PAIRS Bulb Lights Pairs Bulb Lights (Yes/No) (Yes/No) 1-2__________ 2-6 __________ 1-3__________ 3-4 __________ 1-4__________ 3-5 __________ 1-5__________ 3-6 __________ 1-6__________ 4-5 __________ 2-3__________ 4-6 __________ 2-4__________ 5-6 __________ 2-5__________ Page 3

47. 8.Use your observations and draw lines on diagram A, where you think the wires are found in the lid of your box. (Use a pencil so you can erase if you change your mind.) (2) Page 3

48. 9.Talk about your diagram with your instructor. He will show you the correct answer. _____ (1) Page 3

49. 10.On diagram B, draw the wires as they actually are connected. (1) Page 3

50. Box 1 1 5 6 4 3 2 Page 3

51. A 1 5 6 4 3 2

52. B 1 5 6 4 3 2

53. C 1 5 6 4 3 2

54. D 1 5 6 4 3 2

55. E 1 5 6 4 3 2

56. F 1 5 6 4 3 2

57. 11. How do diagrams A and B compare? a. How are they alike? (1) b. How are they different? (1) Page 3

58. H HOW CAN YOU MAKE A SWITCH? Materials: 1 2-brad cardboard switch 2 3-brad cardboard switch 3 green connecting wires Christmas tree bulb battery Page 3

59. 1.Make and then draw the circuit by connecting the battery, Christmas tree bulb and the switch. (1) Page 3

60. 2.How do you get the bulb to turn on and off? (1) Page 3

61. 3.Remove the single switch and replace it with two 3-way cardboard switches. Draw the circuit. (1) Page 3

62. Connect two green connecting wires between the two paper brads of one cardboard switch to the other. Replace the single switch with a two 3-way switches. Page 3

63. Investigate how the switches work. Page 3

64. 4.Describe how the 3-way switch works. (2) Finish power point from OP Page 3

65. 5.Get your instructor to inspect the switch? (2) ____ Page 3

66. Three Way Switches 6.Where around your house are 3-way switches? (1) Page 3

67. I HOW CAN YOU EXPLAIN THE MYSTERIOUS CIRCUIT? Materials: 1 battery 1 bulb 1 length non-covered wire crayon or color marker Page 4

68. 1. Test your bulb and battery to make sure that the bulb will light. Page 4

69. 2. Look at the circuit in the drawing below. Page 4

70. 3. The wire is touching the two special places on the bulb. Predict whether the bulb will light. Explain why. (2) Page 4

71. 4. Use your materials to see if the bulb will light. Page 4

72. 5. What did you observe? (1) 6. Explain what happened? (2) Page 4

73. 7.Use a crayon or color marker to draw a line on the drawing showing where the electricity travels. (1) Page 4

75. J WHERE DOES THE CURRENT GO? Materials: 1 D-cell battery and battery holder 1 bulb holder and bulb 1 green wire 2 non-covered wire crayon or marker Page 4

76. 3. What will happen when a wire is placed between wires 1 & 2? 5. What happened? 6. Explain what happened? 2. Make sure your bulb lights. 4. Try it. Non-covered wire Page 4

77. 6.What do you predict will happen if you touch the end of wire 1 with the end of wire 2 outside the bulb holder?

78. K HOW CAN YOU GET MORE THAN ONE BULB TO LIGHT IN A CIRCUIT? Materials: battery 2 bulbs and 2 bulb holders 3 lengths of green wire battery holder ? Page 5

79. 1.Make sure both bulbs are the same brightness when connected alone with the battery. Then connect one bulb to the battery to make it light. Page 5

80. 2.Add one more bulb in a continuous circuit so that both bulbs light. Page 5

81. 3.What changes in the brightness did you observe when you added the second bulb? How do the brightness of the bulbs compare? (2) Page 5

82. 4.Unscrew one of the bulbs. What do you observe about the other bulb? (1) Page 5

83. 5.Again get both bulbs to light. What do you predict will happen when you remove the other bulb? (1) Page 5

84. 6.Try it. What happens to the other bulb? (1) Page 5

85. 7.Explain your observations? (2) Page 5

86. 8.The circuit you have constructed is called a series circuit. A series circuit is an electric circuit that has a single conducting path through which all charges (electrons) flow. Page 5

87. 9. What happens to a string of Christmas tree lights connected in series if one bums out? Page 5

88. 10. Describe what happens to the light bulbs in your home when one bulb bums out. Page 5

89. 11. Do you think the wires in your home are connected in series? Explain. Page 5

90. LWHAT IS ANOTHER WAY TO GET MORE THAN ONE BULB TO LIGHT IN A CIRCUIT? Materials: battery and battery holder 2bulbs and 2 bulb holders 420 cm lengths of green wire Page 5

91. 1.Get one bulb to light. Also get the other to light. If they do not appear the same brightness get two bulbs that appear to be the same brightness. Page 5

92. 2.Add one more bulb in a bulb holder to the circuit so that both bulbs are connected as in the drawing. Page 5

93. 3.What do you observe about the brightness of the bulbs? (1) Page 5

94. 4.How does the brightness of the bulbs in this arrangement compare to two bulbs arranged in series? (1) Page 5

95. 5.What do you predict will happen to one bulb when the other bulb is unscrewed. (1) Page 5

96. 6.Try it. What happened? (1) Page 5

97. 7.Again get both bulbs to light. Page 5

98. 8.What do you predict will happen when the other bulb is unscrewed? (1) Page 5

99. 9.Try it. Results? (1) Page 5

100. 10.The circuit you have constructed is called a parallel circuit. A parallel circuit is an electric circuit that has their own conducting path through which some of the charges (electrons) flow. Page 5

101. 11.Discuss the differences between: bulbs connected in a series circuit vs bulbs connected in a parallel circuit. Page 5

102. 12.What type of circuit does a string of Christmas tree lights have, series or parallel? Explain. (2) Page 6

103. 13.When one bulb burns out in a string of Christmas tree lights, the others remain lit. Explain. (2) Page 6

104. 14.What type of circuit does the bulbs and appliances have in your home? Explain. (2) Page 6

105. Compare Page 6

106. M HOW MANY BULBS WILL ONE BATTERY LIGHT? Materials: battery 5 to 10 Christmas tree bulbs 2-20 cm lengths bare copper wire (18 ‑ 20 gauge) battery holder Page 6

107. 1. See how many bulbs your group can get to light when each end of the wire of the Christmas tree lights as connected to one and the other copper wire. Page 6

108. Add photo Page 6

109. 2. What do you observe about the brightness of the bulbs already added to the circuit when additional bulbs are added? (1) Page 6

110. 3. Explain why this is so. (2) Page 6

111. N USING TWO CELLS END TO END Materials: 2 batteries 2 battery holders 1 Christmas tree bulb 2 green connecting wire Page 6

112. 1. Get one bulb to light. Page 6

113. 2. What do you predict will happen to the brightness of the bulb when another battery is added to the circuit as shown? (1) Page 6

114. 3. Add the other battery to the circuit. The second battery is in series with the first battery. Page 6

115. 4. What, happens to the brightness of the bulb when the second battery is added? (1) Page 6

116. 5. Explain why the bulb is brighter with two batteries? (2) Page 6

117. 6. Draw the circuit arrangement of the 4 batteries in your calculator. (1) Page 6

118. 7. How are they connected, in series or in parallel? (1) Why? (2) Page 6

119. O USING TWO BATTERIES IN PARALLEL Materials: 2batteries 2 battery holders 1Christmas tree bulbs 2 lengths green wire Page 7

120. 1.Get one bulb to light using one battery, a bulb, and 2 wires. Page 7

121. 2. What do you predict will happen when another battery is added to the circuit as in the illustration? Page 7

122. 3. Add the second battery as in the illustration. Page 7

123. 4. What happens to the brightness of the bulb when the second battery is added? The batteries are connected in parallel. (1) Page 7

124. 5. Explain why the brightness is as it is. Page 7

125. 6. Name an appliance that has two or more batteries connected in parallel. Page 7

126. 7.Next, draw a diagram of the battery connection. (1) Page 7

127. 8. Describe how you can determine how batteries (more than one) are connected in series or parallel. (2) Page 7

128. + - + - + - + - + - + - Series + - + - + - + - Parallel