Unit 3 Physical Oceanography
... Concept 2: Continental Drift and Plate Tectonics • LEQ’s 1. What is the Continental Drift Theory? 2. How did scientists develop the Continental Drift theory? 3. What is the theory of Plate Tectonics? 4. How does Plate Tectonics relate to the Continental Drift Theory? ...
... Concept 2: Continental Drift and Plate Tectonics • LEQ’s 1. What is the Continental Drift Theory? 2. How did scientists develop the Continental Drift theory? 3. What is the theory of Plate Tectonics? 4. How does Plate Tectonics relate to the Continental Drift Theory? ...
Historical Geology
... •Shallow to deep earthquakes •Age varies on one side of the boundary; not symmetrical •Trench, volcanic island chain •Rocks? ...
... •Shallow to deep earthquakes •Age varies on one side of the boundary; not symmetrical •Trench, volcanic island chain •Rocks? ...
Slides - indico in2p3
... radiogenic heating vs secular cooling - abundance of heat producing elements (K, Th, U) in estimates of BSE from 9TW to 36TW the Earth - clues to planet formation processes constrains chondritic Earth models ...
... radiogenic heating vs secular cooling - abundance of heat producing elements (K, Th, U) in estimates of BSE from 9TW to 36TW the Earth - clues to planet formation processes constrains chondritic Earth models ...
Plate Tectonics slideshow - Tectonics Observatory
... Source of Divergent Plate Boundary: http://www.cotf.edu/ete/images/modules/msese/earthsysflr/EFPlateP3.gif Source of Convergent Plate Boundary: http://www.cotf.edu/ete/images/modules/msese/earthsysflr/EFPlateP2.gif Source of Transform Fault: http://stloe.most.go.th/html/lo_index/LOcanada4/403/images ...
... Source of Divergent Plate Boundary: http://www.cotf.edu/ete/images/modules/msese/earthsysflr/EFPlateP3.gif Source of Convergent Plate Boundary: http://www.cotf.edu/ete/images/modules/msese/earthsysflr/EFPlateP2.gif Source of Transform Fault: http://stloe.most.go.th/html/lo_index/LOcanada4/403/images ...
Morphology (-Plate Tectonics)
... 3. Glaciation (technically it is a type of erosion at times and deposition at others) Definition: the establishment and growth of ice sheets due to the build up of excess snow and ice that does not have time to melt or thaw in the summer months. Ice sheets expand during ice ages, which are thought ...
... 3. Glaciation (technically it is a type of erosion at times and deposition at others) Definition: the establishment and growth of ice sheets due to the build up of excess snow and ice that does not have time to melt or thaw in the summer months. Ice sheets expand during ice ages, which are thought ...
Section 1
... d. Drop down; take cover under a desk or table and hold on. Stay indoors until the shaking stops and you're sure it's safe to exit. Stay away from bookcases or furniture that can fall on you. Stay away from windows. In a high-rise building, expect the fire alarms and sprinklers to go off during a qu ...
... d. Drop down; take cover under a desk or table and hold on. Stay indoors until the shaking stops and you're sure it's safe to exit. Stay away from bookcases or furniture that can fall on you. Stay away from windows. In a high-rise building, expect the fire alarms and sprinklers to go off during a qu ...
Document
... Which force(s) create earthquakes and volcanoes? A. Gravity B. Electromagnetism C. Nuclear forces ...
... Which force(s) create earthquakes and volcanoes? A. Gravity B. Electromagnetism C. Nuclear forces ...
Earth Science – Quiz 2
... B) divergent C) convergent D) all plate boundaries 15. Linear, magnetic patterns associated with mid-ocean ridges are configured as ________. A) concentric circles about a rising plume of hot mantle rocks and magma B) reversed magnetizations along the rift valleys and normal magnetizations along the ...
... B) divergent C) convergent D) all plate boundaries 15. Linear, magnetic patterns associated with mid-ocean ridges are configured as ________. A) concentric circles about a rising plume of hot mantle rocks and magma B) reversed magnetizations along the rift valleys and normal magnetizations along the ...
Earth`s Layers
... • The imaginary line of discontinuity that separates the brittle crust of the earth from the mantle is the Mohorovicic Discontinuity or MOHO for short. • Boundary between the crust and the mantle in the earth. ...
... • The imaginary line of discontinuity that separates the brittle crust of the earth from the mantle is the Mohorovicic Discontinuity or MOHO for short. • Boundary between the crust and the mantle in the earth. ...
Unit 1: Structure of the Earth
... basaltic rocks of the oceanic crust. So, most of continental crust is above sea level. • OCEANIC CRUST composed of basaltic rocks, which are more dense than granitic rocks of the continental crust. So, oceanic crust is below sea level. ...
... basaltic rocks of the oceanic crust. So, most of continental crust is above sea level. • OCEANIC CRUST composed of basaltic rocks, which are more dense than granitic rocks of the continental crust. So, oceanic crust is below sea level. ...
Hot Spot Demo
... Calculate the rate and direction of motion. Describe features formed by gradual changes such as plate tectonics. Background: Mantle hot spots are areas where magma burns a hole through the crust in the middle of a tectonic plate. Volcanoes form above the hot spot. The interesting thing is that v ...
... Calculate the rate and direction of motion. Describe features formed by gradual changes such as plate tectonics. Background: Mantle hot spots are areas where magma burns a hole through the crust in the middle of a tectonic plate. Volcanoes form above the hot spot. The interesting thing is that v ...
Plate-Boundaries-Notes
... Divergent-two plates move apart o _____________________________________ _____________________________________ o _____________________________________ _____________________________________ ...
... Divergent-two plates move apart o _____________________________________ _____________________________________ o _____________________________________ _____________________________________ ...
Earth as a planet
... The lithosphere is divided into roughly 10 large “plates” which move in response to convection in the mantle. ...
... The lithosphere is divided into roughly 10 large “plates” which move in response to convection in the mantle. ...
Chapter 2
... Other Evidence of Plate Tectonics Ages from ocean basins • Oldest rocks on ocean floor are ~200 million years old (<5% Earth’s age) • Ocean basins are young features – continually being formed (at mid ocean ridges) and destroyed (at subduction zones) • Hot spots in the mantle (plumes) cause volcano ...
... Other Evidence of Plate Tectonics Ages from ocean basins • Oldest rocks on ocean floor are ~200 million years old (<5% Earth’s age) • Ocean basins are young features – continually being formed (at mid ocean ridges) and destroyed (at subduction zones) • Hot spots in the mantle (plumes) cause volcano ...
48Other Types of Plate Motion
... In this activity, you investigated the movement of plate boundaries in which the edges of the plate margin were straight. Find out what happens along a transform boundary when there is a bend in the plate. On the home page of the SEPUP Plate Motion computer simulation, click on the button that says ...
... In this activity, you investigated the movement of plate boundaries in which the edges of the plate margin were straight. Find out what happens along a transform boundary when there is a bend in the plate. On the home page of the SEPUP Plate Motion computer simulation, click on the button that says ...
InsidetheEarth
... from that point, the temperature rises 1 Celsius degree. This rapid rise in temperature continues for several kilometers. After that, the temperature increases more slowly, but steadily. ...
... from that point, the temperature rises 1 Celsius degree. This rapid rise in temperature continues for several kilometers. After that, the temperature increases more slowly, but steadily. ...
New Title - TeacherWeb
... Geologists have learned a great deal about Earth’s interior by carefully studying the waves created by earthquakes, called seismic waves. Like light waves and sound waves, seismic waves travel through different kinds of materials at different rates. For example, a type of seismic wave called a P wav ...
... Geologists have learned a great deal about Earth’s interior by carefully studying the waves created by earthquakes, called seismic waves. Like light waves and sound waves, seismic waves travel through different kinds of materials at different rates. For example, a type of seismic wave called a P wav ...
Going Their Separate Ways
... variety of topographic features: flat plains, long mountain chains, and deep trenches. Mid-ocean ridges are part of a chain of mountains some 84,000 km long. The Mid-Atlantic Ridge is the longest mountain chain on Earth. These ridges are spreading centers or divergent boundaries where the upwelling ...
... variety of topographic features: flat plains, long mountain chains, and deep trenches. Mid-ocean ridges are part of a chain of mountains some 84,000 km long. The Mid-Atlantic Ridge is the longest mountain chain on Earth. These ridges are spreading centers or divergent boundaries where the upwelling ...
Plate Tectonics Vocabulary Terms
... A boundary along which two tectonic plates push together In plate tectonics, a convergent boundary, also known as a destructive plate boundary (because of subduction), is an actively deforming region where two (or more) tectonic plates or fragments of lithosphere move toward one another and collide. ...
... A boundary along which two tectonic plates push together In plate tectonics, a convergent boundary, also known as a destructive plate boundary (because of subduction), is an actively deforming region where two (or more) tectonic plates or fragments of lithosphere move toward one another and collide. ...
Pacific plate shrinking as it cools: Calculations challenge
... They predict the rate of contraction to be 10 times faster than older parts of the plate that were created about 20 million years ago and 80 times faster than very old parts of the plate that were created about 160 million years ago. The tectonic plates that cover Earth's surface, including both lan ...
... They predict the rate of contraction to be 10 times faster than older parts of the plate that were created about 20 million years ago and 80 times faster than very old parts of the plate that were created about 160 million years ago. The tectonic plates that cover Earth's surface, including both lan ...
Ecosystems: What Are They and How Do They Work?
... Organism: Any form of life. Single cell, plant or animal Cells: Basic unit of life Species: Groups of organisms that share characteristics. ...
... Organism: Any form of life. Single cell, plant or animal Cells: Basic unit of life Species: Groups of organisms that share characteristics. ...
plate boundary - Cloudfront.net
... Boundaries have different names depending on how the two plates are moving in relationship to each other – crashing: Convergent Boundaries (forms earthquakes, mountains, and volcanoes) – pulling apart: Divergent Boundaries ...
... Boundaries have different names depending on how the two plates are moving in relationship to each other – crashing: Convergent Boundaries (forms earthquakes, mountains, and volcanoes) – pulling apart: Divergent Boundaries ...
Plate Tectonic Boundaries
... • Generates melting in the overlying crust. • Remain fixed for between 20 million and 100 million years while plate rides over. • Many aseismic ridges produced by hot spots. ...
... • Generates melting in the overlying crust. • Remain fixed for between 20 million and 100 million years while plate rides over. • Many aseismic ridges produced by hot spots. ...
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.