1. Earth Science Chapter 5 Plate Tectonics

2. Big Ideas Earth’s Interior Convection and the Mantle Drifting continents Sea-floor Spreading Plate Tectonics

3. Earth’s Interior How far do you think it is to the center of the Earth?

4. Almost 4,000 miles! The deepest mine in the world is only 2 miles

5. How do you think scientists know about the center of the Earth?

6. Geologists use 2 main types of evidence to learn about Earth’s interior: – Direct Evidence from rock samples – Indirect evidence from seismic waves

7. Evidence from Rocks Humans have drilled holes and extracted rock from depths of 12 miles Blasts from the Earth have brought rocks from 100 ft to the surface

8. Evidence from Seismic Waves Earthquakes produce seismic waves The speed of seismic waves and the path they take show the structure of the planet

10. Three main layers The three main layers of Earth are the crust, mantle, and the core These layers differ in size, composition, temperature, and pressure

12. Temperature The first 20 meters beneath Earth’s crust is cool After this depth, temperature rises 1 degree Celsius per 40 meters Heat comes from the molten layer and radioactive substances

13. Pressure The deeper you go, the higher the pressure This pressure is equal to that of a swimming pool

14. Pressure

15. Lab Skills Activity Work with a partner, Read the directions to the Lab Zone Skills Activity Create the Data Table on page 129

16. Crust Crust is a layer of rock that forms Earth’s outer skin Crust includes both dry land and ocean floor Crust is very thin compared to the other layers of Earth, only 5-70 km thick

17. Crust

18. The crust beneath the ocean is oceanic crust and usually made of basalt Continental crust consists of rocks such as granite

19. I was very disappointed in the behavior of some of you on Friday. That was extremely disrespectful of you to run from the classroom when the bell rang. You need to remember that I dismiss you and not the bell. Please take your seat and sit quietly while you wait for class to begin

20. Mantle The mantle is about 40 km below the surface It consists of a hot, solid rock It can be divided into layers The mantle is about 3000 km thick

21. Mantle

22. Lithosphere The crust and the uppermost part of the mantle form the lithosphere It is about 100 km thick Lithos means “stone” in Greek

23. Lithosphere

24. Asthenosphere Under increase heat and pressure Less rigid-soft like tar, but still solid Asthenes means “weak” in Greek

26. The Lower Mantle Beneath the asthenosphere the mantle is solid This material extends to the Earth’s core

27. Lower Mantle

28. The Core Consists of mostly nickel and iron Made of two parts, a liquid outer core and solid inner core Together it is about 3486 km thick

29. Despite extreme pressure, the outer core is molten surrounding a dense, solid inner core Evidence suggests that the extreme pressure in the inner core will not allow the solid metal to spread and become liquid

30. Core

31. Core and Magnetic field Scientists think that movements in Earth’s liquid outer core create Earth’s magnetic field. This magnetism is what attracts a compass’ needle towards north (it aligns with Earth’s magnetic field)

33. Individually Complete the section 1 assessment on page 131, including the “writing in science” assignment. If you do not complete these in class, they will become your homework and will be due tomorrow.

34. Make a Chart Types of Heat Transfer Radiation Explanation/definition Conduction Explanation/Definition Convection Explanation/Definition

35. When you complete the chart Read the sections “Convection Currents”, and “Convection Currents in Earth.” 1. Define Convection Currents 2. Explain how convection currents work, using a real example 3. Create an illustration of a convection current

36. Drifting Continents http://www.youtube.com/watch?v=WaUk94A dXPA http://www.youtube.com/watch?v=WaUk94A dXPA

37. Continental Drift Prior to Columbus, mapmakers did not know about the new worlds Shortly after they began to notice how the coastlines of several countries seemed to fit together like a puzzle

39. Continental drift Early 1900s German Scientist Alfred Wegener made a hypothesis: All of the continents were once joined together in a single land mass and have since drifted apart.

40. The Origin of Continents and Oceans Wegener gathered evidence from different scientific fields to support his ideas about continental drift. He studied land features, fossils, and evidence of climate change

41. Write a Book! Make your own version of Wegner’s book Use the same title as he did Read pages 138-138 about the evidence he found Create a page for each type of evidence Explain how the evidence supports his hypothesis and include illustrations if appropriate.

42. Page 1: Title Page 2: Evidence from land features Page 3: Evidence from fossils Page 4: Evidence from climate Page 5: Conclusion