2. Lab 525 ONLINE LESSON

3. If viewing this lesson in Powerpoint Use down or up arrows to navigate

4. Do take notes as we peruse through this lesson…

5. Radiometric Dating

6. A question that is often asked… How old is the earth?

7. And the answer is…

8. Pretty Old

9. Radiometric dating is the process of measuring the age of rocks

10. By measuring the age of rocks, geologists can determine the age of a number of geologic events...

11. To include the age of the earth!!!

12. Radiometric dating is based on the concept of radioactivity…the disintegration (falling apart) of atoms

13. What is an atom?

14. An atom is the smallest particle in the universe with a distinct set of chemical characteristics…..

15. An atom is a structure…it is a package of particles

16. Everything in the universe is comprised of atoms…bicycles

17. Cellphones

18. Dumbasses

19. Everything

20. An atom is comprised of three basic components

21. ATOM P PROTON (positively charged) N NEUTRON (neutral) e-e- ELECTRON (negatively charged)

22. e-e- NUCLEUS The electron orbits the nucleus which contains the protons and neutrons

23. RULE: The number of protons determines the chemical identity of an element

24. For instance… -all Hydrogen contains 1 proton… -all Helium contains 2 protons… -all Uranium contains 92 protons…

25. Element = a substance that cannot be broken down into other substances by chemical means…

26. For instance… Hydrogen is an element Helium is an element Uranium is an element

27. CARBON 12 C Carbon-12 is a species of carbon…

28. CARBON 12 C It contains 6 protons and 6 neutrons…for a total of 12 particles in the nucleus

29. CARBON 14 C Carbon-14 is another species of carbon…

30. CARBON 14 C Carbon-14 contains 6 protons but 8 neutrons…for a total of 14 particles…

31. CARBON 14 C The neutron count may vary but the proton count remains the same…6 protons…

32. SO: The number of protons determines the chemical identity of an element

33. Decay types are part of Radioactivity …there are three types to be concerned with…

34. DECAY TYPES ALPHA BETA ELECTRON CAPTURE e-e- PP P P NN N N e-e-

35. DECAY TYPES ALPHA PP NN 2 protons and 2 neutrons are thrown out of the nucleus…this reduces the number of protons and thus changes the element…

36. DECAY TYPES BETA e-e- P N A neutron turns into a proton This will change the element

37. DECAY TYPES ELECTRON CAPTURE P N e-e- A proton turns into a neutron This will change the element

38. With all 3 decay types…elements will change their chemical identity because of the change in the number of protons…

39. A common decay series is 238 U/ 206 Pb URANIUM = PARENT LEAD = DAUGHTER

40. A decay series is the progression of the disintegration of elements…a start to finish process…

41. This beginning to end process is the essence of radiometric dating…

42. 238 U 92 For instance… Uranium 238 is a parent element and it decays over time to to Lead 206…

43. 238 U 92 The decay process starts out with 92 protons and 146 neutrons for a total of 238 particles in the nucleus…

44. 238 U 92 And includes a series of steps before uranium turns into lead…

45. 238 U 92 2 protons and 2 neutrons are ejected from the nucleus and changes the element… uranium to thorium

46. 234 Th 90 A neutron is converted to a proton and changes thorium to paladium…

47. 234 Pa 91 And so on and so on…

48. 234 U 92

49. 230 Th 90

50. 226 Ra 88

51. 222 Rn 86

52. 218 Po 84

53. 214 Pb 82

54. 214 Bi 84

55. 214 Po 84

56. 210 Pb 82

57. 210 Po 84

58. 206 Pb 82

59. Through a series of steps…uranium is changed to lead…

60. So how does radiometric dating allow geologists to date rocks?

61. A rock is found in the field…an igneous rock…

62. It is formed as a result of melted material from the interior of the planet…

63. That eventually cooled…

64. The minerals inside the rock solidified with some radioactive material inside the crystals…

65. Radioactive elements started at 100% parent material (dark blue dots)…

66. Then over time…the parent material decayed to daughter material (light blue dots) one atom at a time…

72. Over time a reduction of parent material will occur as well as an increase of daughter material

73. Principally, this means that we can make a ratio between parent material and daughter material…

74. This ratio can be placed into an equation… ln(n 0 /n t )(100000000) T = 0.0154

75. ln(n 0 /n t )(100000000) T = n t Original amount of parent material n 0 Leftover amount of parent material (daughter amount subtracted from parent material) 0.0154 T Age of a rock

76. The bean counting exercise involves counting brown beans which represents parent material n t

77. The amount of parent material n t is determined by counting the total number of beans…brown and white…

78. The white beans represent daughter material… n 0 is calculated by number of brown beans

79. ln(n 0 /n t )(100000000) T = Values are then placed into this equation 0.0154

80. ln(n 0 /n t )(100000000) T = And the age of a rock can be calculated… 0.0154

81. ln(n 0 /n t )(100000000) T = This is referred to as absolute time… 0.0154

82. Absolute time is used in concert with a Relative Time Scale…

83. Periods such as Cretaceous and Jurassic are relative time periods…

84. Meaning one period is older or younger than another period…

85. Cretaceous rocks are younger than Jurassic rocks…

86. Ordovician rocks are older than Triassic rocks…

87. A Relative Time scale is older at the bottom

88. And younger at the top…

89. The Relative Time scale was developed to show the relationship of sedimentary rocks…

90. Superimposed relative to each other…

91. The Relative Time scale was developed with no absolute time values…

92. However, with radiometric dating…real absolute time values can be assigned to each relative time period…

93. Geologic Time Scale…