Plate tectonics study guide blank File
... 25. If two continental plates collide, what is produced? 26. What do we call a boundary where two plates slip past one another? 27. What type of rock primarily makes up oceanic crust? 28 What type of rock primarily makes up continental crust? 29. What is the name of the boundary where two plates are ...
... 25. If two continental plates collide, what is produced? 26. What do we call a boundary where two plates slip past one another? 27. What type of rock primarily makes up oceanic crust? 28 What type of rock primarily makes up continental crust? 29. What is the name of the boundary where two plates are ...
Forces on Earth Outline Notes - Flipped Out Science with Mrs
... Types of Convergent Boundaries (number the pictures to match) ...
... Types of Convergent Boundaries (number the pictures to match) ...
Document
... Hot Spots and Mantle plumes reaching the surface. Hot spots tend to be relatively stationary. As an oceanic plate moves over a hot spot new islands can be formed. Most think that the hawiian islands are a result of motion over a hot spot. ...
... Hot Spots and Mantle plumes reaching the surface. Hot spots tend to be relatively stationary. As an oceanic plate moves over a hot spot new islands can be formed. Most think that the hawiian islands are a result of motion over a hot spot. ...
Plate Tectonics
... Continental drift is Wegener’s theory that all continents had once been joined together in a single landmass and have drifted apart since. Wegener named this supercontinent Pangaea. Wegener’s theory was rejected by scientists because he could not explain what force pushes or pulls continents. ...
... Continental drift is Wegener’s theory that all continents had once been joined together in a single landmass and have drifted apart since. Wegener named this supercontinent Pangaea. Wegener’s theory was rejected by scientists because he could not explain what force pushes or pulls continents. ...
Contribution of glacial-isostatic adjustment to tectonic
... Charles University in Prague, Czech Republic ...
... Charles University in Prague, Czech Republic ...
Simulating Mantle Convection and Seismic Anisotropy with Data
... Why Blue Waters • CitcomS has a very good scalability, up to ~10,000 CPUs on Blue Waters. ...
... Why Blue Waters • CitcomS has a very good scalability, up to ~10,000 CPUs on Blue Waters. ...
Ch 18 PP
... • Uplifted mountains, volcanic belts, and island arcs are found parallel to convergent boundaries. • Ocean trenches lie along convergent boundaries. • Mid-ocean ridges and rift valleys mark divergent boundaries. ...
... • Uplifted mountains, volcanic belts, and island arcs are found parallel to convergent boundaries. • Ocean trenches lie along convergent boundaries. • Mid-ocean ridges and rift valleys mark divergent boundaries. ...
pdf 4.5Mb
... – rock layers of different density » boundary reflects energy like a mirror » time since earthquake gives depth to boundary ...
... – rock layers of different density » boundary reflects energy like a mirror » time since earthquake gives depth to boundary ...
Plate Tectonics Guided Notes
... Volcanoes can be formed in 3 ways: 1) ____________________ 2) ____________________ 3) ____________________ Hotspot volcanoes form when ____________________________________________________ ________________________________ of a tectonic plate. An example is the ____________________________________ Bec ...
... Volcanoes can be formed in 3 ways: 1) ____________________ 2) ____________________ 3) ____________________ Hotspot volcanoes form when ____________________________________________________ ________________________________ of a tectonic plate. An example is the ____________________________________ Bec ...
Interior of Earth Graphic Organizer
... 1) the inner core: a solid metal core made up of nickel and iron (2440 km diameter) 2) the outer core: a liquid molten core of nickel and iron 3) the mantle: dense and mostly solid silicate rock 4) the crust: thin silicate rock material The temperature in the core is hotter than the Sun's surface. T ...
... 1) the inner core: a solid metal core made up of nickel and iron (2440 km diameter) 2) the outer core: a liquid molten core of nickel and iron 3) the mantle: dense and mostly solid silicate rock 4) the crust: thin silicate rock material The temperature in the core is hotter than the Sun's surface. T ...
Chapter 9: Plate Tectonics Review
... • Geological theory that states that pieces of Earth's lithosphere are in constant, slow motion ...
... • Geological theory that states that pieces of Earth's lithosphere are in constant, slow motion ...
The Theory of Plate Tectonics - Ouray School District R-1
... produce large mountains (hymliays) 3) Oceanic vs oceanic: One goes under the other and the subducted plate produces magma that forms and rises to form an island arc. ...
... produce large mountains (hymliays) 3) Oceanic vs oceanic: One goes under the other and the subducted plate produces magma that forms and rises to form an island arc. ...
Grade 6 Chapter 1 Study Guide
... at a deep-ocean trench and this keeps a balance of new ocean floor being created while older crust is subducted into the mantle. Know that the sea-floor spreads at an average rate of between 2-10 centimeters a year and that the ocean floor is renewed about every 200 million years. ...
... at a deep-ocean trench and this keeps a balance of new ocean floor being created while older crust is subducted into the mantle. Know that the sea-floor spreads at an average rate of between 2-10 centimeters a year and that the ocean floor is renewed about every 200 million years. ...
LAYERS OF THE EARTH
... is very thin compared to the other three layers. The crust makes up 1% of the Earth. The crust of the Earth is broken into many pieces called plates. 5 to 25 miles thick and up to 1,600 F Two types of crust Oceanic and Continental ...
... is very thin compared to the other three layers. The crust makes up 1% of the Earth. The crust of the Earth is broken into many pieces called plates. 5 to 25 miles thick and up to 1,600 F Two types of crust Oceanic and Continental ...
1 Plate Tectonics Post-Test
... a. In the middle of continents b. At convergent plate boundaries c. At divergent plate boundares d. In the asthenosphere ...
... a. In the middle of continents b. At convergent plate boundaries c. At divergent plate boundares d. In the asthenosphere ...
Lecture 6 - Rocks and The Earth`s Interior
... velocities change from 6.7-7.2 km/sec (in the lower crust) to 7.6-8.6 km/sec or average 8.1 km/sec (at the top of the upper mantle) • Estimated to be between 0.2 and 3 km ...
... velocities change from 6.7-7.2 km/sec (in the lower crust) to 7.6-8.6 km/sec or average 8.1 km/sec (at the top of the upper mantle) • Estimated to be between 0.2 and 3 km ...
Mantle plume
A mantle plume is a mechanism proposed in 1971 to explain volcanic regions of the earth that were not thought to be explicable by the then-new theory of plate tectonics. Some such volcanic regions lie far from tectonic plate boundaries, for example, Hawaii. Others represent unusually large-volume volcanism, whether on plate boundaries, e.g. Iceland, or basalt floods such as the Deccan or Siberian traps.A mantle plume is posited to exist where hot rock nucleates at the core-mantle boundary and rises through the Earth's mantle becoming a diapir in the Earth's crust. The currently active volcanic centers are known as ""hot spots"". In particular, the concept that mantle plumes are fixed relative to one another, and anchored at the core-mantle boundary, was thought to provide a natural explanation for the time-progressive chains of older volcanoes seen extending out from some such hot spots, such as the Hawaiian–Emperor seamount chain.The hypothesis of mantle plumes from depth is not universally accepted as explaining all such volcanism. It has required progressive hypothesis-elaboration leading to variant propositions such as mini-plumes and pulsing plumes. Another hypothesis for unusual volcanic regions is the ""Plate model"". This proposes shallower, passive leakage of magma from the mantle onto the Earth's surface where extension of the lithosphere permits it, attributing most volcanism to plate tectonic processes, with volcanoes far from plate boundaries resulting from intraplate extension.