Marine Geology Final Exam Information and Review
... type of plate boundary. Give several examples of each type of plate boundary. • About how fast do plates move? ...
... type of plate boundary. Give several examples of each type of plate boundary. • About how fast do plates move? ...
Chapter 3 - Plate Tectonics
... immediately above any portion of oceanic crust divide the distance from the spreading ridge by the age gives average rate of movement relative to the ridge ...
... immediately above any portion of oceanic crust divide the distance from the spreading ridge by the age gives average rate of movement relative to the ridge ...
What is a Volcano?
... Area where large numbers of earthquakes and volcanic eruptions occur in a 40,000km horseshoe shape. Contains 452 volcanoes, with over 75% of worlds active and dormant volcanoes. ...
... Area where large numbers of earthquakes and volcanic eruptions occur in a 40,000km horseshoe shape. Contains 452 volcanoes, with over 75% of worlds active and dormant volcanoes. ...
Earth`s Layers
... •Is the outermost layer on the earth. (EGG SHELL) •Thickness varies. Under mountains it can be as thick as 60 km and less than 5 km under the ocean. •It is the least dense of all the layers. (lightest layer) •It is made up of silicon and oxygen. ...
... •Is the outermost layer on the earth. (EGG SHELL) •Thickness varies. Under mountains it can be as thick as 60 km and less than 5 km under the ocean. •It is the least dense of all the layers. (lightest layer) •It is made up of silicon and oxygen. ...
No Slide Title
... An Example of Ancient Rifting • What features in the rock record can geologists use to recognize ancient rifting? ...
... An Example of Ancient Rifting • What features in the rock record can geologists use to recognize ancient rifting? ...
Name: Date: Period: _____ Chapter 14 Study Guide Honors
... 2. The presence of the same fossils and rocks on several continents supported the hypothesis of continental drift. 3. What does the hypothesis of continental drift state? The continents have slowly moved to their current locations. 4. What are formed when two continental plates collide? Mountain ran ...
... 2. The presence of the same fossils and rocks on several continents supported the hypothesis of continental drift. 3. What does the hypothesis of continental drift state? The continents have slowly moved to their current locations. 4. What are formed when two continental plates collide? Mountain ran ...
Force and Motion Vocabulary
... b. oceanic is found under the oceans, composed of basalt 7. Deep Ocean Trench – a deep valley along the ocean floor through which oceanic crust slowly sinks towards the mantle; a convergent plate boundary 8. Divergent Boundary – a plate boundary where two plates move away from each other 9. Fault – ...
... b. oceanic is found under the oceans, composed of basalt 7. Deep Ocean Trench – a deep valley along the ocean floor through which oceanic crust slowly sinks towards the mantle; a convergent plate boundary 8. Divergent Boundary – a plate boundary where two plates move away from each other 9. Fault – ...
Flynt - ______ Name: Fill in the Blank Fill in the blank with the
... ____ 20. Wegener used all of the following to support his theory of continental drift EXCEPT a. The location of gold deposits in the Rocky Mountains. b. The fit of the continents. c. He found fossils of tropical plants on the island of Spitsbergen in the Arctic Ocean. d. He found deep scratches call ...
... ____ 20. Wegener used all of the following to support his theory of continental drift EXCEPT a. The location of gold deposits in the Rocky Mountains. b. The fit of the continents. c. He found fossils of tropical plants on the island of Spitsbergen in the Arctic Ocean. d. He found deep scratches call ...
EMPACTS Lesson Plan - Faculty Web Pages
... the San Andrea’s fault is an example of a Transform Boundary. Have the student doing Divergent boundaries examine the cracker, and if needed get a new one. Explain that a Divergent Boundary is where the two plates move away from each other. Have the student demonstrating gently push down on each gra ...
... the San Andrea’s fault is an example of a Transform Boundary. Have the student doing Divergent boundaries examine the cracker, and if needed get a new one. Explain that a Divergent Boundary is where the two plates move away from each other. Have the student demonstrating gently push down on each gra ...
indirect evidence
... • Composed of ferro-magnesium silicates rich in iron and magnesium Molten rock moves in a convection motion The motion causes the movement of Earth’s tectonic plates. ...
... • Composed of ferro-magnesium silicates rich in iron and magnesium Molten rock moves in a convection motion The motion causes the movement of Earth’s tectonic plates. ...
Understanding Our Environment
... that break overlying crust into tectonic plates. Slide slowly across earth’s surface - Ocean basins form where continents crack and pull apart. - Magma forced up through the cracks forms new oceanic crust that piles up underwater in mid-ocean ridges. ...
... that break overlying crust into tectonic plates. Slide slowly across earth’s surface - Ocean basins form where continents crack and pull apart. - Magma forced up through the cracks forms new oceanic crust that piles up underwater in mid-ocean ridges. ...
Earth`s Layers Review
... - AKA- the amount of “stuff” in a given space - Example: limestone is more dense than water, _________________________ Tectonic plates - Solid and found in the _______________________ - Move around on top of the ____________________ Be able to compare and contrast the lithosphere and asthenosphere, ...
... - AKA- the amount of “stuff” in a given space - Example: limestone is more dense than water, _________________________ Tectonic plates - Solid and found in the _______________________ - Move around on top of the ____________________ Be able to compare and contrast the lithosphere and asthenosphere, ...
Dynamic Earth
... scientists during a dive of the deep-sea submersible Alvin on the East Pacific Rise (latitude 21° north) in 1979. Such geothermal vents--called smokers because they resemble chimneys--spew dark, mineral-rich, fluids heated by contact with the newly formed, stillhot oceanic crust. This photograph sho ...
... scientists during a dive of the deep-sea submersible Alvin on the East Pacific Rise (latitude 21° north) in 1979. Such geothermal vents--called smokers because they resemble chimneys--spew dark, mineral-rich, fluids heated by contact with the newly formed, stillhot oceanic crust. This photograph sho ...
Plate Tectonics pre
... Video 1: Motion at Plate Boundaries Mark the blank boxes according to whether the features listed occur at divergent, convergent, or transform plate boundaries. DIVERGENT CONVERGENT TRANSFORM Process or feature boundary boundary boundary Sea floor spreading Subduction Side-by-side sliding Mid-ocean ...
... Video 1: Motion at Plate Boundaries Mark the blank boxes according to whether the features listed occur at divergent, convergent, or transform plate boundaries. DIVERGENT CONVERGENT TRANSFORM Process or feature boundary boundary boundary Sea floor spreading Subduction Side-by-side sliding Mid-ocean ...
Plate Tectonics - cloudfront.net
... understand that this view of the Earth is inaccurate. We have learned that the lithosphere (the crust and upper layer of the mantle) float on top of the asthenosphere and can move around. How does this happen? At the bottom of the ocean, located almost exactly halfway between the continents are unde ...
... understand that this view of the Earth is inaccurate. We have learned that the lithosphere (the crust and upper layer of the mantle) float on top of the asthenosphere and can move around. How does this happen? At the bottom of the ocean, located almost exactly halfway between the continents are unde ...
What Is Inside Earth?
... of volcanoes, which comes from deep inside Earth. Other evidence about Earth’s interior comes from studying certain rocks at Earth’s surface. These rocks actually formed deep inside Earth. Over time, they were pushed up closer to the surface and exposed when the rock above them was worn away. Geolog ...
... of volcanoes, which comes from deep inside Earth. Other evidence about Earth’s interior comes from studying certain rocks at Earth’s surface. These rocks actually formed deep inside Earth. Over time, they were pushed up closer to the surface and exposed when the rock above them was worn away. Geolog ...
Week 22 - Continental Drift and Plate Tectonics
... of the nearly perfect “fit” of the South American and African continents. Evidence supporting the continental drift theory: 1. Continent shape – they seemed to fit together 2. Fossil Evidence – fossils of the same plants and animals were found on different continents 3. Rock Formations – found nearl ...
... of the nearly perfect “fit” of the South American and African continents. Evidence supporting the continental drift theory: 1. Continent shape – they seemed to fit together 2. Fossil Evidence – fossils of the same plants and animals were found on different continents 3. Rock Formations – found nearl ...
The Four Layers
... The crust of the Earth is broken into many pieces called plates. The plates "float" on the soft, plastic mantle which is located below the crust. These plates usually move along smoothly but sometimes they stick and build up pressure. The pressure builds and the rock bends until it snaps. When this ...
... The crust of the Earth is broken into many pieces called plates. The plates "float" on the soft, plastic mantle which is located below the crust. These plates usually move along smoothly but sometimes they stick and build up pressure. The pressure builds and the rock bends until it snaps. When this ...
Landform Processes Hasse`s Geomorphology Rule #1
... Mountain Building (Endogenic) Processes occur in particular geographic patterns throughout the world ...
... Mountain Building (Endogenic) Processes occur in particular geographic patterns throughout the world ...
Land, Air, and Water • What forces shape the land? • What are the
... The world’s plates move in different directions, causing a variety of effects: Ridges: In some places, plates move apart, and magma leaks through the cracks in the crust. In the oceans, over time, the cooling rock builds up to form lines of underwater mountains called ridges. Volcanoes: In other pla ...
... The world’s plates move in different directions, causing a variety of effects: Ridges: In some places, plates move apart, and magma leaks through the cracks in the crust. In the oceans, over time, the cooling rock builds up to form lines of underwater mountains called ridges. Volcanoes: In other pla ...
The Earth`s Layers
... • The crust of the Earth is broken into many pieces called plates. The plates move along the soft mantle which is the layer located located below the crust. ...
... • The crust of the Earth is broken into many pieces called plates. The plates move along the soft mantle which is the layer located located below the crust. ...
Layers of the Earth Power Point Presentation
... • The crust of the Earth is broken into many pieces called plates. The plates move along the soft mantle which is the layer located located below the crust. ...
... • The crust of the Earth is broken into many pieces called plates. The plates move along the soft mantle which is the layer located located below the crust. ...
Plate tectonics
Plate tectonics (from the Late Latin tectonicus, from the Greek: τεκτονικός ""pertaining to building"") is a scientific theory that describes the large-scale motion of Earth's lithosphere. This theoretical model builds on the concept of continental drift which was developed during the first few decades of the 20th century. The geoscientific community accepted the theory after the concepts of seafloor spreading were later developed in the late 1950s and early 1960s.The lithosphere, which is the rigid outermost shell of a planet (on Earth, the crust and upper mantle), is broken up into tectonic plates. On Earth, there are seven or eight major plates (depending on how they are defined) and many minor plates. Where plates meet, their relative motion determines the type of boundary; convergent, divergent, or transform. Earthquakes, volcanic activity, mountain-building, and oceanic trench formation occur along these plate boundaries. The lateral relative movement of the plates typically varies from zero to 100 mm annually.Tectonic plates are composed of oceanic lithosphere and thicker continental lithosphere, each topped by its own kind of crust. Along convergent boundaries, subduction carries plates into the mantle; the material lost is roughly balanced by the formation of new (oceanic) crust along divergent margins by seafloor spreading. In this way, the total surface of the globe remains the same. This prediction of plate tectonics is also referred to as the conveyor belt principle. Earlier theories (that still have some supporters) propose gradual shrinking (contraction) or gradual expansion of the globe.Tectonic plates are able to move because the Earth's lithosphere has greater strength than the underlying asthenosphere. Lateral density variations in the mantle result in convection. Plate movement is thought to be driven by a combination of the motion of the seafloor away from the spreading ridge (due to variations in topography and density of the crust, which result in differences in gravitational forces) and drag, with downward suction, at the subduction zones. Another explanation lies in the different forces generated by the rotation of the globe and the tidal forces of the Sun and Moon. The relative importance of each of these factors and their relationship to each other is unclear, and still the subject of much debate.