Chapter 10: Plate Tectonics
Reverse faults have ___ forces.
compression
Convergent boundaries form...
mountains, volcanoes, and deep sea trenches
What happens at an oceanic-oceanic collision?
the older/denser crust bends under the other. A deep-sea trench is formed.
Subduction
the process by which the ocean floor sinks beneath a deep-ocean trench and back into the mantle again
As a continent moves ___ the poles, its climate gets colder.
toward
The fact that the ____ rocks are located at the mid-ocean ridges is evidence for seafloor spreading.
youngest
The key to explaining sea-floor spreading is _________.
Magnetic stripes.
__________ occurs when one plate sinks beneath another plate.
Subduction
_________________ is the key to understanding Continental Drift.
The fit of the continents
Lithosphere
The outer shell of Earth that extends to a depth of 100 km.
Asthenosphere
The partially melted layer of the mantle that underlies the lithosphere.
Mesosaurus and Lystrosaurus are ____.
ancient reptiles (fossils)
Wegener noticed that mountain ranges on the continents of South America and ____ line up.
Africa
Oceanic-Continental Plate Boundary
Denser ocean crust sinks into the asthenosphere. Also known as a subduction zone. Old ocean crust gets pushed into the asthenosphere, where it is remelted and recycled
Scientists believe that differences in ____________ cause hot, plastic-like rock in the asthenosphere to rise toward Earth's surface.
Density
Reverse Fault
Form from compression forces; rock breaks from forces pushing from opposite directions; rock above a reverse fault surface is forced up and over the rock below the fault surface
Normal Fault
Form when rocks undergo tension; rock above the fault surface moves downward in relation to rock below the fault surface
Because the continents fit together so well, this means they were once a _______________________ and have slowly _____________ to their present locations.
single landmass; drifted
Lithospheric Plates
A number of rigid, but moving, pieces of the Earth's surface.
________________ is responsible for the Continental Drift hypothesis.
Alfred Wegener
Pangaea means...
All Earth
Panthalassa means...
All Sea
What happens at a continental-continental collision?
Because the two crusts are the same density, they squeeze and push the crust up to form mountains.
__________ is the idea that the continents move very slowly, over millions of years, parallel to Earth's surface.
Continental Drift
_________ is the key to explaining Plate Tectonics.
Convection Currents
Converging Boundaries
Forms when two (Crustal) Lithospheric plates come together.
Diverging Boundaries
Forms when two (Crustal) Lithospheric plates move apart.
Sliding Boundaries
Forms when two (Crustal) Lithospheric plates slide past each other.
A ________ is any preserved evidence of ancient life.
Fossil
__________ uses satellites to track the movement of plates.
GPS
The force of ____________ moves the plate downward and away from the ridge during ridge push.
Gravity
Who is responsible for the sea-floor spreading hypothesis?
Harry Hess
The crust and upper mantle are composed of ____________.
Lithosphere
The crust and upper mantle make up Earth's......
Lithosphere
Divergent boundaries form...
Mid-ocean ridges and rift valleys
Oceanic-Oceanic Plate Boundary
One of the plates is subducted (sinks) under the other
This name comes from two words meaning "all land".
Pangaea
________ is the supercontinent that Wegener suggested occurred on Earth about 300 million years ago.
Pangaea
_________ explains how plates move and cause major geologic features and events on Earth's surface.
Plate Tectonics
Continental-Continental Plate Boundary
Plates buckle and thicken, pushing the continental crust upward creating mountains
What is a boundary between two plates that are moving apart called?
Ridge
__________ moves a plate at a ridge.
Ridge Push
Strike-Slip Fault
Rocks on either side of the fault are moving past each other without much upward or downward movement; produced by shear forces pushing rocks in somewhat opposite horizontal directions
The Glomar Challenger provided support for the theory of Plate Tectonics by providing what?
Samples of older rock found far from mid-ocean ridges.
The Global Positioning System (GPS) is a network of _________ used to determine locations on Earth
Satellites
_____________ is the new crust formed at mid-ocean ridges.
Sea floor spreading
The Glomar Challenger gathered information about rocks on the.......
Seafloor
__________ forces a plate into the mantle.
Slab Pull
Seafloor Spreading
States that youngest rocks of the ocean floor are at diverging boundaries, moving outward.
Continental Drift
The theory that all continents are fragments of Pangaea now drifting apart.
Plate Tectonics
Theory of the formation and movement of the plates that cover the Earth's surface.
Deep-Ocean Trench
a canyon on the ocean floor at which the crust bends downward
Mid-Ocean Ridge
a chain of underwater mountains along which seafloor spreading occurs
Rift Valley
a deep valley on land that forms at a divergent boundary
Alfred Wegener was one of the first people to suggest that all of the ________ were joined together in the past. He called the one large continent _________.
continents; Pangaea
As a continent moves toward the ____, its climate gets warmer.
equator
Transform boundaries form...
major earthquakes
Until clues on the ___________ led to the idea of seafloor spreading, the mechanism of the continents moving, scientists would not believe Wegener's theory of continental drift.
ocean floor
The continents fit together like ______________.
puzzle pieces
Most of Wegener's scientist friends ____ his hypothesis.
rejected
Harry Hess' theory of __________ explained how ocean crust is generated and destroyed.
seafloor spreading
Strike-Slip faults have ___ forces.
shear
Wegener's support for continental drift theory (3 things)
similar fossils, similar rocks/mountain shapes, and climate change
Normal faults have ___ forces.
tension
What happens at an oceanic-continental collision?
the more dense oceanic crust sinks beneath the continental plate, forming a subduction zone.
