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Geological Time Dating Absolute and Relative. Geologic Time B y examining layers of sedimentary rock, geologists developed a time scale for dividing up.

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Presentation on theme: "Geological Time Dating Absolute and Relative. Geologic Time B y examining layers of sedimentary rock, geologists developed a time scale for dividing up."— Presentation transcript:

1 Geological Time Dating Absolute and Relative

2 Geologic Time B y examining layers of sedimentary rock, geologists developed a time scale for dividing up earth history. Earlier in the 20 th century, radiometric-dating techniques allowed scientists to put absolute dates on divisions in the geologic time scale. In this segment, we will learn how geologists: determine the relative ages of rock units, how radiometric techniques can be used to date some rocks.

3 Geological Background: Rocks Igneous rocks are formed by volcanic processes –Often by cooling of molten rocks (at surface or within Earth’s interior) –They are important for radiometric dating (see K-Ar dating)

4 Geological Background: Rocks S edimentary rocks are formed from deposition of sediments into layers –Deposited by wind, water, gravity into layers –Sediments formed by erosion of other rocks –Layers are gradually hardened over time –Sedimentary rocks are important because fossils are found in these rocks

5 Geological Background: Rocks Metamorphic rocks have “morphed” into another kind of rock Formerly sedimentary or igneous Changed by heat and pressure –Not particularly important in paleontology –But pretty! How Rocks are formed

6 Relative dating Determine whether the rock is older or younger than other rocks How do geologists determine how old rocks are?

7 Example of Relative Age Dating and Correlation

8 Geologists try to determine the order in which events have happened during Earth’s history. They rely on rocks and fossils to help them in their investigation. The process of determining whether an event or object is older or younger than other events or objects is called relative dating.

9 Layers of sedimentary rock, such as the ones shown below, are stacked liked pancakes.

10 As you move from the top to the bottom in layers of sedimentary rock, the lower layers are older. Superposition is a principle that states that younger rocks lie above older rocks, if the layers have not been disturbed.

11 Disturbing Forces Not all rock sequences are arranged with the oldest layers on the bottom and the youngest layers on top. Some rock sequences have been disturbed by forces within the Earth. These forces can push other rocks into a sequence, tilt or fold rock layers, and break sequences into moveable parts.

12 The geologic column is an ideal sequence of rock layers that contains all the known fossils and rock formations on Earth, arranged from oldest to youngest. Geologists use the geologic column to interpret rock sequences and to identify the layers in puzzling rock sequences.

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14 Geologists often find features that cut across existing layers of rock. Geologists use the relationships between rock layers and the features that cross them to assign relative ages to the features and the layers. The features must be younger than the rock layers because the rock layers had to be present before the features could cut across them.

15 Events That Disturb Rock Layers Geologists assume that the way sediment is deposited to form rock layers—in horizontal layers—has not changed over time. If rock layers are not horizontal, something must have disturbed them after they formed. The next slide describes four ways that rock layers may become disturbed.

16 A fault is a break in the Earth’s crust along which blocks of the crust slide relative to one another. An intrusion is molten rock from the Earth’s interior that squeezes into existing rock and cools. Folding occurs when rock layers bend and buckle from Earth’s internal forces. Tilting occurs when internal forces in the Earth slant rock layers.

17 Relative Age Dating

18 Absolute dating -- use radiometric dating techniques to determine how long ago the rock formed in the exact number of years *Not all rocks can be dated absolutely, so combinations of techniques are used. How do geologists determine how old rocks are?

19 Absolute dating is any method of measuring the age of an event or object in years. To determine the absolute ages of fossils and rocks, scientists analyze isotopes of radioactive elements. Atoms of the same element that have the same number of protons but different numbers of neutrons are called isotopes. Radioactive Decay

20 Most isotopes are stable, meaning that they stay in their original form. Other isotopes are unstable. Scientists call unstable isotopes radioactive. Radioactive Decay, continued

21 Radioactive isotopes tend to break down into stable isotopes of the same or other elements in a process called radioactive decay. Radioactive Decay, continued

22 Because radioactive decay occurs at a steady rate, scientists can use the relative amounts of stable and unstable isotopes present in an object to determine the object’s age. Dating Rocks—How Does It Work? In radioactive decay, an unstable radioactive isotope of one element breaks down into a stable isotope. The stable isotope may be of the same element or of a different element. Radioactive Decay, continued

23 The unstable radioactive isotope is called the parent material. The stable isotope produced by the radioactive decay of the parent isotope is called the daughter material. Radioactive Decay, continued

24 The rate of radioactive decay is constant, so scientists can compare the amount of parent material with the amount of daughter material to date rock. The more daughter material there is, the older the rock is. Radioactive Decay, continued

25 Determining the absolute age of a sample, based on the ratio of parent material to daughter material is called radiometric dating. If you know the rate of decay for a radioactive element in a rock, you can figure out the absolute age of the rock. Radiometric Dating

26 A half-life is the time needed for half of a sample of a radioactive substance to undergo radioactive decay. After every half-life, the amount of parent material decrease by one-half. Radiometric Dating, continued

27 Scientists use different radiometric-dating methods based on the estimated age of an object. There are four radiometric-dating techniques. Potassium-Argon Method Potassium-40 has a half-life of 1.3 billion years, and it decays leaving a daughter material of argon. This method is used mainly to date rocks older than 100,000 years. Types of Radiometric Dating

28 Uranium-Lead Method Uranium-238 is a radioactive isotope with a half-life of 4.5 billion years. Uranium-238 decays in a series of steps to lead-206. The uranium-lead method can be used to date rocks more than 10 million years old. Types of Radiometric Dating, continued

29 Rubidium-Strontium Method The unstable parent isotope rubidium-87 forms a stable daughter isotope strontium-87. The half-life of rubidium-87 is 49 billion years. This method is used for rocks older than 10 million years. Types of Radiometric Dating, continued

30 Carbon-14 Method Carbon is normally found in three forms, the stable isotopes carbon-12 and carbon-13, and the radioactive isotope carbon-14. Living plants and animals contain a constant ratio of carbon-14 to carbon-12. Once a plant or animal dies, no new carbon is taken in. The amount of carbon-14 begins to decrease as the plant or animal decays. Types of Radiometric Dating, continued

31 The half-life of carbon-14 is 5,730 years. The carbon-14 method of radiometric dating is used mainly for dating things that lived within the last 50,000 years. Types of Radiometric Dating, continued


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