Picture Review Name

... Heat and pressure, metamorphism Rises, sinks Sinks, rises Supercontinent Two broken continents of Pangaea Convection current in the asthenosphere Continents are drifting apart ( Alfred Wegener ) What explains the continental drift theory. Plates move because of the convection current in the mantle. ...

What is the Lithosphere

... extent of intraplate earthquakes and both appear to coincide with the predicted depth to the 600 to 800°C isotherm (Figure 4 and Figure5), which is approximately the temperature in olivine that creep should become an important mechanism. In the oceans, the primary control on the thickness of the mec ...

plates

... The map is colored nicely  Names of Plates to use on map: North American Plate South American Plate Eurasian Plate Arabian Plate Indo-Australian Plate Philippine Plate Juan de Fuca Plate Caribbean Plate African Plate Cocos Plate Nazca Plate Pacific Plate Antarctic Plate Scotia Plate ...

Chapter 20 – Mountain Building

... Convergent-Boundary Mtns. • Continental-Continental Boundaries: - Both pieces of crust have relatively low density and cannot be subducted. - Plate will instead push together and get deformed (folded, faulted). - This will build up thick areas of crust, thus creating the tallest mountains on ...

ReviewTest3-4-14-15-16-17-18

... b. Harry Hess c. D.H. Matthews d. Fred Vine e. Alfred Wegener 18. Pangaea is ____________. a. another name given the Alaskan earthquake of 1964 b. a portion of the mid-Atlantic ridge c. a German word for "plate tectonics" d. a name of a fossil found in both Africa and South America that led scientis ...

Describe the composition and structure of Earth.

... 1. Which of the Earth’s structural layers is cool and rigid by the crust and mantle? 2. Which of the Earth’s structural layers is pliable and solid? 3. What are the compositional layers of the Earth? ...

plates - Geography

...  Eg. Tibetan Plateau ...

C 2 = C 1 + h

... Some important points brought out by the first lectures: Pro- and retrograde metamorphic reactions play important roles for the dynamics in orogenic belts in that they give • Changes in petrophysical properties (density structure and hence evolution of topography) • Reaction enhanced deformation (i ...

EARTH`S INTERIOR

... The crust of the earth is about 5 miles thick under oceanic crust and 25 miles thick under the continental crust. This means that under water (oceans) the layer of the earth goes five miles and under solid ground it goes further at twenty-five miles. The crust is broken into many different parts ca ...

Study Guide! Which of the following is homozygous and has a

... D. Atoms 35. Which of the following is not a state or phase of the moon? A. New Moon B. Full Moon C. Eclipse D. Quarter Moon 36. What type of material is used to prevent heat loss from a building? A. Decking B. Insulation C. Beans D. Wallboard 37. This type of electric circuit has many pathways for ...

Normal / Reverse / Transverse

... Leads to fractures in the earth's crust Convection currents in mantle Faults force land up, down or sideways Down - normal fault (pulling apart) Up - reverse fault (pushing together) Sideways - Transform fault (sideways) Rock may slip very little each time (1-5 cm per year) In geological time (slipp ...

Ocean Margins - Penn State York Home Page

... Choose: slope, shelf, rise, abyssal plain. • Which is steepest? • Which are over basalt? • Which stops at a ridge? • Which typically has high biological productivity in the surface seawater above? Which margin type typically has a divergent plate boundary far away and nothing convergence of faulting ...

8-31 Core Mantle Crust.notebook

... The deepest hole ever drilled by man is the Kola Superdeep Borehole, in Russia. It reached a depth of 12,261 meters (about 40,226 feet or 7.62 miles). It was drilled for scientific research and gave up some unexpected discoveries, one of which was a huge deposit of hydrogen so massive that the ...

PPT file

... Marianas Trench - Oceanography, http://www.marianatrench.com/mariana_trench-oceanography.htm Marianas Trench graphic - Astrobiology Magazine, http://astrobio.net/articles/images/marianas_trench_lg.jpg ...

Teacher Worksheet for the Egg Earth Activity

... liquid outer core are not represented. The rigid upper part of the mantle is not distinguishable from the lower partially molten mantle in the egg model. ...

2015-16 - School of Earth Sciences

... mark for this examination and each part is weighted equally. Use diagrams and equations to illustrate your answer wherever possible. 1. Why and how does mantle convection occur in the Earth? Explain the physical processes and parameters that govern mantle convection, using brief descriptions, equati ...

Tectonics III - MSU Billings

... and resulting in regional uplift at the Earth’s surface d. Long columns of hot, less dense rock, rising from deep in the mantle and responsible for about 10% of the Earth’s total heat loss e. B, C and D are all correct ...

The Dynamic Earth

... Colliding – Convergent Boundary Sliding – Transform Boundary Moving away – Divergent Boundary ...

Geology 1: Questions for Chapter 1 1) The currently accepted age of

... B) Older strata generally are deposited on younger strata without intervening, intermediate age strata. C) Older fossils in younger strata indicate a locally inverted geologic time scale. D) Sedimentary deposits accumulates on top of older rock or older sedimentary deposits. E) Younger rocks are alw ...

An East African desert will one day become an ocean

... Scientists think the eastern part more than 6,400 kilometers (4,000 of the African plate is sitting above miles) long is breaking the slab apart. a particularly fiery spot in Earth’s Eventually, a piece of East Africa mantle, or the layer of hot, solid will rip off from the continent and a material ...

Overview: Targeted Alaska Grade Level Expectations

... Earth’s crust and the top of Earth’s mantle form a solid layer called the lithosphere. Below this layer, lies the asthenosphere, which is soft and jelly-like. The convection currents within this layer cause the lithosphere to break into plates and slide along the surface of the asthenosphere. Plate ...

CS_Ch15_PlateTechtonics

Section 4 Plate Motions and Plate Interactions

... rocks, like toothpaste out of a tube. Some of the magma stays below the seafloor and crystallizes into rock there. All of these new rocks formed by volcanic activity (called igneous rocks), at the seafloor and below, make new oceanic crust. This crust then moves away from the crest of the ridge. In ...

Sea Floor Structures

... At mid-ocean ridges, two tectonic plates are moving apart. This leaves a depression known as the central rift valley. The floor of the rift valley is covered with crevices and cracks. Seawater leaks down into these fractures and is heated by the very high temperatures of the mantle. The heated water ...

8.9AB: Plate Tectonics

... volcanoes, mountains and ocean trenches can form. A divergent boundary occurs when two plates move away from one another creating rift valleys in continental material and ridges in ocean basins. A transform boundary occurs as two plates move past each other causing faulting and earthquake activity. ...

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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.

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Plate tectonics