1. Divergent Boundaries Two plates moving AWAY from each other and forming a gap or RIFT. Mostly associated with OCEANIC crust [seafloor spreading = Mid-Atlantic Ridge] – as molten rock [MAGMA] from the mantle rises the plates move apart, and fills the space between the plates. – as it cools, it hardens onto the edges of the plates and creates new crust. 1

2. “CONSTRUCTIVE”DIVERGENT PLATES 2

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4. Divergent Boundaries Some involve the CONTINENTAL crust –when it begins to separate, the stretched crust forms a long, narrow, depression called a RIFT VALLEY it is currently happening between the African and Arabian plates  Red Sea is therefore widening 4

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6. RIFT VALLEYS 6

7. 7 Mediterranean Sea

8. Convergent Boundaries Two plates moving TOWARDS each other. Direct COLLISION of one plate with another one. There are three POSSIBILITIES: –CONTINENTAL – OCEANIC –OCEANIC – OCEANIC –CONTINENTAL – CONTINENTAL 8

9. CONTINENTAL - OCEANIC As the plates are colliding, the denser plate will be forced downwards Since the oceanic crust is denser than the continental crust, the ocean plate is pushed under continental plate. [crust destruction] The area is called a SUBDUCTION ZONE, and forms a deep-ocean trench As the plate sinks into the mantle, it melts and becomes magma. The magma rises through the continental plate and forms a volcanic chain 9

10. OCEANICCONTINENTAL     “DESTRUCTIVE” 10

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12. Mount St. Helens, Washington Cascades range 12

13. Volcanic mountains of the Andes, (Nazca and South American Plates) 13

14. TRENCH 14

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16. OCEANIC – OCEANIC The more dense of the 2 will go under and form a subduction zone / OCEAN TRENCH The new mantle material produced from the melting of the subducted plate will eventually resurface to produce chain of volcanic islands on the ocean floor called ISLAND ARCS As magma accumulates over time, the volcanoes may rise above sea level to form volcanic islands: Mariana trench and the Mariana Islands in the west Pacific ocean 16

17. OCEANIC-OCEANIC CONVERGENCE “DESTRUCTIVE” 17

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21. CONVERGENT PLATES“DESTRUCTIVE” 21

22. CONTINENTAL - CONTINENTAL As the 2 continental plates are colliding, neither plate is subducted i.e. neither plate goes beneath the other  WHY? –because the Continental crust is too buoyant to sink into the mantle. The colliding edges buckle and are pushed upward to form mountain ranges. Indian/Australian plate collide with the Eurasian plate to form the HIMALAYAS. 22

23. CONTINENTAL – CONTINENTAL CONVERGENCE 23

24. The collision of India and Asia produced the Himalayas (before) 24

25. The collision of India and Asia produced the Himalayas (after) 25

26. Mountain Building 26

27. Transform Boundaries Two plates PASSING each other. Plates are grinding past each other and the crust is either cracked or deformed. Motion is not smooth but rather in spurs of sudden moves generating  EARTHQUAKES* They are followed by periods of low or no activity  San Andreas Fault * Earthquakes can occur / are common along all boundaries 27

28. TRANSFORM FAULT “CONSERVATIVE” Crust is nor created nor destroyed 28

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30. Tectonic plates can include A.only asthenosphere. B.only oceanic crust C.only continental crust D.both oceanic and continental crust.

31. Features found at divergent boundaries include ____. A.ocean ridges B.deep-sea trenches C.crumpled mountains D.island arc volcanoes

32. Continental-continental plate collisions produce ____. A.island arcs B.rift valleys C.deep-sea trenches D.very tall mountain ranges

33. The theory that explains why and how continents move is called A.continental drift B.paleomagnetism C.plate tectonics D.sea-floor spreading

34. The Himalaya Mountains were formed in a collision at a A.divergent boundary B.convergent boundary C.transform boundary. D.fracture zone

35. Crust is neither destroyed nor formed along which of the following boundaries? A.convergent B.divergent C.transform D.magnetic

36. 36 SUMMARY Direction of movement Type of Boundary/ impact on crust Plates involvedGeological activities/ features Examples

38. 38 Direction of movement Type of Boundary/ impact on crust Plates involvedGeological activities/ features Examples AwayDivergent CONSTRUCTIVE O Seafloor spreading Mid-Atlantic Ridge C Rift Valley Arabian – African plates Red Sea widening C Fissures Volcanoes Iceland TowardsConvergent DESTRUCTIVE C – O Subduction zone – trench Volcanic mountains Cascades, Andes O – O Subduction zone – trench Volcanic islands Japan Aleutian Islands Mariana Islands C – C Crumpling – Uplifting Mountains Himalayas Alps Appalachians SlidingTransform CONSERVATIVE O – O or C – C Fault – Earthquakes San Andreas fault “Above”NoneO or C Volcanoes Volcanic islands Yellowstone Hawaiian islands

39. Importance of plate tectonics Theory provides an explanation of Earth’s major surface processes Geologists have found explanations for the geologic distribution of earthquakes, volcanoes and mountains and the distributions of plants and animals fossils.

40. #1 MATCH DIVERGENT CONVERGENT TRANSFORM CONSERVATIVE DESTRUCTIVE CONSTRUCTIVE

41. #1 MATCH DIVERGENT CONVERGENT TRANSFORM CONSERVATIVE DESTRUCTIVE CONSTRUCTIVE

42. What causes Plate Movement? While several models have been proposed to explain the DRIVING MECHANISM responsible for their movement, there is no doubt that the Earth’s internal heat is the DRIVING FORCE. 42

43. DRIVING MECHANISM Convection Currents  the rising-sinking action of magma due to the heat in Earth’s core  Magma close to the core is heated,  It expands, lowering its density, and then rises  Closer to the crust, the magma cools, it contracts, increasing its density, and then sinks due to gravity 43

44. Convection currents 44

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46. The driving mechanism of tectonic plates movement are related to convection currents in Earth’s ____. A.crust B.mantle C.inner core D.outer core

47. The downward part of a convection current causes a sinking force that ____. A.pulls tectonic plates toward one another B.moves plates apart from one another C.lifts and splits the lithosphere D.creates a divergent boundary

48. Which of the following is an example of a divergent plate boundary? A.[Option 1] B.[Option 2] C.[Option 3] D.[Option 4] 48

49. At what type of plate boundary does sea-floor spreading occur? A.convergent oceanic-oceanic boundaries B.convergent oceanic-continental boundaries C.divergent oceanic-oceanic boundaries D.transform boundaries

50. The force behind the movement of Earth’s plates is A.cooling of magma cells that rises to the Earth’s surface B.magnetic attraction between Earth’s iron core and its poles C.temperature differences between Earth’s oceanic and continental plates D.the Earth’s internal heat producing convection currents in the mantle.