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Interpreting Rock Layers

Interpreting Rock Layers. How scientist study Earth’s history. Rock layers can be seen on this exposed cliff. Each layer represents a certain span of time. What techniques can scientists use to estimate the age of the rock?. There are two types of time dating.

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Interpreting Rock Layers

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  1. Interpreting Rock Layers How scientist study Earth’s history

  2. Rock layers can be seen on this exposed cliff. Each layer represents a certain span of time. What techniques can scientists use to estimate the age of the rock?

  3. There are two types of time dating • Geologists use relative dating to figure out if a rock is older or younger than another rock. • In rock that is not disturbed (moved around by tectonic forces) • The older rocks are on bottom. • The younger rocks are on top. (law of superposition) • Just like laundry in a laundry basket

  4. Fossils also help….Looking at animals present in the layers helps scientists estimate age. Tell me how. Index fossil can also be used to show the approximate ages of rock. Fossils in different rock layers can be compared to determine one rock layers age in relation to another’s

  5. Problems… • Rock layers are not undisturbed. Earthquakes, faults, flooding, erosion, volcanic activity all change the landscape (some quickly and some slowly) • Unconformity: a gap in the rock sequence that happens because • agents of erosion (water, wind, glaciers) move layers or parts of layers away or • because no deposition occurs in that area. • Deposition does not evenly distribute sediments (higher areas may not get as much as lower etc..) or • Earthquakes/plate movement has caused ground to be uplifted • Igneous intrusions and extrusions can also change how the layers look.

  6. Intrusions must be younger than the rock they pass through. You cannot go through something unless it was there first!

  7. Faults cause layers to shift up or down

  8. Erosion can cause layers to disappear.

  9. But What If You Want to Know the Exact Age? • Geologists often also need to know the exact age of a rock or fossil. • Finding the exact age of an object is called absolute dating. • Remember “absolute” means exact or definite. O

  10. Parents and Daughters • Scientists can learn the age of a rock by counting the number of parent and daughter atoms and comparing it. • Radioactive dating • Radioactive dating uses the half-lifeof atoms to figure out the age of the rock layers the atoms are in. • Determines Absolute Age

  11. Half-Lives of Two Atoms • Potassium-40 has a half-life of 1.3 billion years. It can be used to date rocks older than 100,000 years. • Uranium-238 has a half life of 4.5 billion years. It can be used to date rocks older than 10 million years. • The half-life of carbon-14 is known to be 5720 years. Why do you think it is a good element to use to date fossils and some rock? Shorter half life means more accurate age

  12. Rock Layers Activity

  13. Depict the following subsurface rock cross section • A layer of large chunks of rock are deposited in an area. • Years later the area is flooded and fine sediment is deposited. • An earthquake occurs which causes parts of the ground to be lifted up. • Another flood occurs and deposits sediment on the existing ground. • An intrusive layer of magma bubbles up to the surface.

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