- published: 25 Aug 2014
- views: 150
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In geology, the crust is the outermost solid shell of a rocky planet or natural satellite, which is chemically distinct from the underlying mantle. The crusts of Earth, the Moon, Mercury, Venus, Mars, Io, and other planetary bodies have been generated largely by igneous processes, and these crusts are richer in incompatible elements than their respective mantles.
This video is targeted to blind users.
Attribution:
Article text available under CC-BY-SA
Creative Commons image source in video
Deformation of the crust - Geological Interpretation - How rocks behave under stress, to better understand earthquakes. (60minutes)
Host; Dr. David Pearson.
•What is stress?
•What is directed stress and elastic deformation
•What is confining stress and plastic behaviour
•Plastic behaviour of folds (anticline/syncline)
•Description of folds ie limbs
•Normal faults
•Reverse fault
•Thrust fault
•Graben/Horst (Graben -- Yellowknife example)
•Illustrated images of folds
•Illustrated images of faults
•Strike and dip
Part 3 Deformation of the crust 10-Part3
• and Dip continued
•Obtaining strike and dip on strata
•Northern Ontario and Arctic
•Dr Ridler from Geological Survey of Canada; describing folds
•Segment on diamond drilling and extracted core from the barrel
•Interpreting rock layering from core
•Rock fracture/fault San Andreas Fault -- Transform Fault (slide horizontal)
•San Andreas Fault description and identification
Part 4 Deformation of the crust 10-Part4
•San Andreas Fault description and identification continued
•Dr John Crowell University of California describing fault San Andreas Fault - http://www.sbnature.org/dibblee/newweb/1998medal.html
•Dr John Crowell University of California describing fault zone -- fossil screed
•Rock reaching its plastic limit of San Andreas fault
•Laboratory of rock reaching its elastic and plastic phase
•Heating / breaking of foreshocks of rocks prior to an earthquake
•Movement and displacement of a fault can be identified by collecting rock samples at various location on a fault and matching them at various locations away.
•Observing rock during the elastic deformation
•Japanese scientists use; water in a tube monitors elasticity of rock
•Japanese use foreshocks for the prediction in quakes
•Japan Sept 6 1966 -- actual footage of an earthquake
•Underground nuclear explosion footage/images
•Releasing earthquakes -- Denver area, US Army pumping, contaminated waste 150 million gallons down a 3 mile deep hole experiments.
Part 6 Deformation of the crust 10-Part6
Keywords; geology,crust,earthquakes,sudbury,glacial rebound
•Two processes of deformation; loading of Ice and pushing of plates
•Hudson Bay -- Glacial rebound (Hudson Bay will eventually disappear and the rise of the surrounding land)
•Canadian rockies examples of thrust plane and showing extreme compression
•Different examples of behavior of rocks in compression and tension
•Tension cracks
- published: 30 May 2014
- views: 2496
Living Rock - An Introduction to Earth's Geology movie was released Aug 13, 2002 by the DVD International studio. Ever wonder why earthquakes happen, or how a volcano works? Living Rock - An Introduction to Earth's Geology movie Find the answers to these and many other questions in LIVING ROCK, a fun and educational program about the Earth's geology, jointly produced by the US Geological Survey and Alpha DVD.
Living Rock - An Introduction to Earth's Geology video Introduces concepts such as Geologic Time, Continental Crust, Plate Tectonics, Volcanic Activity, Earthquakes, Subduction Zones, Erosion, and Glaciers.
Facebook Page: https://www.facebook.com/geology.page
Twitter : http://twitter.com/geologypage
Youtube : http://www.youtube.com/user/GeologyPage
Google+ : https://plus.google.com/101351700113202974849
LinkedIn : http://www.linkedin.com/company/geology-page
Pinterest : http://www.pinterest.com/GeologyPage
Instagram : http://instagram.com/geologypage
Geology Page: http://www.geologypage.com/
- published: 18 Jul 2015
- views: 6960
Mr. Lima discusses how the crust folds under different types of stress
- published: 14 Feb 2012
- views: 7229
For all mountains, ocean floor, will give it shape
It’s only 5 to 40 km in length
This is the outer part, the crust it is its name
You’d think it wider on it’s own well it ain’t
And geologists will study rock
Constantly changing, forces affect surface
Constructive opposite destructive
It’s building up or breaking down
And we think Earth’s insides something
Four different layers of stacked, seismic waves tell us that
The crust is rock, soil too and it’s like the outer one
It ranges 5 to 40 km long
And dive down the mantle has a job, convection is going on
Lithosphere stone, asthenosphere is weak and soft
Outer core is like a wave of metal mush
Oh, baby nickel, iron, liquid gel
And we do think that inner’s holding on to atoms
Squeezing tight a solid shell
And as we move lower rock melts and it bends
Magnesium, iron, silicon, oxygen
Convection currents churning hot-rises, cold-down
Asthenosphere pushes lithosphere along
And geologists will study rock
Constantly changing, forces affect surface
Constructive opposite destructive
It’s building up or breaking down
And we think Earth’s insides something
Four different layers of stacked, seismic waves tell us that
The crust is rock, soil too and it’s like the outer one
It ranges 5 to 40 km long
And dive down the mantle has a job, convection is going on
Lithosphere stone, asthenosphere is weak and soft
Outer core is like a wave of metal mush
Oh, baby nickel, iron, liquid gel
And we do think that inner’s holding on to atoms
Squeezing tight a solid shell
For all inside the Earth’s made of two cores
Outer is made of all iron, nickel metal
And always stays molten when pressure is incredible
But changing the rule inner is a solid ball
Outer core is like a wave of metal mush
Oh, baby nickel, iron, liquid gel
And we do think that inner’s holding on to atoms
Squeezing tight a solid shell
Outer core is like a wave of metal mush
Oh, baby nickel, iron, liquid gel
And we do think that inner’s holding on to atoms
Squeezing tight a solid shell
- published: 18 Jan 2016
- views: 38216
This episode discusses the scientific theory of plate tectonics, in which the Earth's crust is subdivided into a series of large and small tectonic plates. Convergent, divergent or transform boundaries are discussed and demonstrated with brittle graham crackers and icing to illustrate the motions of the plates at these boundaries. A second demonstration consisting of heating cream in a pan, representing convecting upper mantle, driving a relatively brittle layer of cocoa powder (the Crust).
- published: 03 Dec 2012
- views: 40903
Lithospheric plates
Lithospheric plates are regions of Earth's crust and upper mantle that are fractured into plates that move across a deeper plasticine mantle.
Earth's crust is fractured into 13 major and approximately 20 total lithospheric plates. Each lithospheric plate is composed of a layer of oceanic crust or continental crust superficial to an outer layer of the mantle. Containing both crust and the upper region of the mantle, lithospheric plates are generally considered to be approximately 60 mi (100 km) thick. Although containing only continental crust or oceanic crust in any one cross-section, lithospheric plates may contain various sections that exclusively contain either oceanic crust or continental crust and therefore lithospheric plates may contain various combinations of oceanic and continental crust. Lithospheric plates move on top of the asthenosphere (the outer plastically deforming region of Earth's mantle).
The term "plate" is deceptive. Remembering that Earth is an oblate sphere, lithospheric plates are not flat, but curved and fractured into curved sections akin to the peeled sections of an orange. Accordingly, analysis of lithospheric plate movements and dynamics requires more sophisticated mathematics that account for the curvature of the plates.
In geological terms, there are three types of boundaries between lithospheric plates. At divergent boundaries, lithospheric plates move apart and crust is created. At convergent boundaries, lithospheric plates move together in collision zones where crust is either destroyed by subduction or uplifted to form mountain chains . Lateral movements between lithospheric plates create transform faults at the sites of plate slippage.
At each of the unique lithospheric plate boundaries there are specific geophysical forces that are characteristic of the plate dynamics. At transform boundaries there are shearing forces between the lithospheric plates. At divergent boundaries, tensional forces dominate the interaction between plates. At subduction sites, compression of lithospheric plate material dominates.
The dynamics of plate tectonics , driven by deeper thermal processes, stress and cause elastic strain on lithospheric materials. Resulting fractures of rock in the lithosphere cause a release of energy in the form of seismic waves (i.e. an earthquake ).
Because Earth's diameter remains constant, there is no net creation or destruction of lithospheric plates.
In contrast to the technical definition of lithosphere used by geologists, many geographers use the term lithosphere to denote landmass. This is a distinct concept as the geological definition of lithosphere may include sections containing oceanic crust completely submerged beneath Earth's oceans . Using the geographical definition, Earth is approximately 71% hydrosphere (a region covered by water ) and 21% lithosphere (a region of land).
See also Dating methods; Earth, interior structure; Hawaiian Island formation; Mantle plumes; Mapping techniques; Mid-ocean ridges and rifts; Mohorovicic discontinuity (Moho); Ocean trenches; Rifting and rift valleys; Subduction zone
- published: 27 Aug 2015
- views: 6998
Crust (geology)
In geology, the crust is the outermost solid shell of a rocky planet or natural satellite, which is chemically distinct from the underlying mantle. The crusts of Earth, the Moon, Mercury, Venus, Mars, Io, and other planetary bodies have been generated largely by igneous processes, and these crusts are richer in incompatible elements than their respective mantles.
Earth's crust
The crust of the Earth is composed of a great variety of igneous, metamorphic, and sedimentary rocks. The crust is underlain by the mantle. The upper part of the mantle is composed mostly of peridotite, a rock denser than rocks common in the overlying crust. The boundary between the crust and mantle is conventionally placed at the Mohorovičić discontinuity, a boundary defined by a contrast in seismic velocity. The crust occupies less than 1% of Earth's volume.
The oceanic crust of the sheet is different from its continental crust.
This page contains text from Wikipedia, the Free Encyclopedia -
https://wn.com/Crust_(geology)
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
Crust
Crust may refer to:
Physical sciences
Food
Music
Other uses
See also
This page contains text from Wikipedia, the Free Encyclopedia -
https://wn.com/Crust
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
Geology
Geology (from the Greek γῆ, gē, i.e. "earth" and -λoγία, -logia, i.e. "study of, discourse") is an earth science comprising the study of solid Earth, the rocks of which it is composed, and the processes by which they change. Geology can also refer generally to the study of the solid features of any celestial body (such as the geology of the Moon or Mars).
Geology gives insight into the history of the Earth by providing the primary evidence for plate tectonics, the evolutionary history of life, and past climates. Geology is important for mineral and hydrocarbon exploration and exploitation, evaluating water resources, understanding of natural hazards, the remediation of environmental problems, and for providing insights into past climate change. Geology also plays a role in geotechnical engineering and is a major academic discipline.
Geologic materials
The majority of geological data comes from research on solid Earth materials. These typically fall into one of two categories: rock and unconsolidated material.
This page contains text from Wikipedia, the Free Encyclopedia -
https://wn.com/Geology
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
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8:30Crust (geology)
Crust (geology)Crust (geology)
In geology, the crust is the outermost solid shell of a rocky planet or natural satellite, which is chemically distinct from the underlying mantle. The crusts of Earth, the Moon, Mercury, Venus, Mars, Io, and other planetary bodies have been generated largely by igneous processes, and these crusts are richer in incompatible elements than their respective mantles. This video is targeted to blind users. Attribution: Article text available under CC-BY-SA Creative Commons image source in video -
0:22Geology: Continental Crust
Geology: Continental CrustGeology: Continental Crust
continental crust -
12:00Physical Geology: Plate Tectonics, continental margins & ocean crust
Physical Geology: Plate Tectonics, continental margins & ocean crustPhysical Geology: Plate Tectonics, continental margins & ocean crust
-
86:45FULL EPISODE Lesson 10 Deformation of the Crust - Understanding the Earth
FULL EPISODE Lesson 10 Deformation of the Crust - Understanding the EarthFULL EPISODE Lesson 10 Deformation of the Crust - Understanding the Earth
Deformation of the crust - Geological Interpretation - How rocks behave under stress, to better understand earthquakes. (60minutes) Host; Dr. David Pearson. •What is stress? •What is directed stress and elastic deformation •What is confining stress and plastic behaviour •Plastic behaviour of folds (anticline/syncline) •Description of folds ie limbs •Normal faults •Reverse fault •Thrust fault •Graben/Horst (Graben -- Yellowknife example) •Illustrated images of folds •Illustrated images of faults •Strike and dip Part 3 Deformation of the crust 10-Part3 • and Dip continued •Obtaining strike and dip on strata •Northern Ontario and Arctic •Dr Ridler from Geological Survey of Canada; describing folds •Segment on diamond drilling and extracted core from the barrel •Interpreting rock layering from core •Rock fracture/fault San Andreas Fault -- Transform Fault (slide horizontal) •San Andreas Fault description and identification Part 4 Deformation of the crust 10-Part4 •San Andreas Fault description and identification continued •Dr John Crowell University of California describing fault San Andreas Fault - http://www.sbnature.org/dibblee/newweb/1998medal.html •Dr John Crowell University of California describing fault zone -- fossil screed •Rock reaching its plastic limit of San Andreas fault •Laboratory of rock reaching its elastic and plastic phase •Heating / breaking of foreshocks of rocks prior to an earthquake •Movement and displacement of a fault can be identified by collecting rock samples at various location on a fault and matching them at various locations away. •Observing rock during the elastic deformation •Japanese scientists use; water in a tube monitors elasticity of rock •Japanese use foreshocks for the prediction in quakes •Japan Sept 6 1966 -- actual footage of an earthquake •Underground nuclear explosion footage/images •Releasing earthquakes -- Denver area, US Army pumping, contaminated waste 150 million gallons down a 3 mile deep hole experiments. Part 6 Deformation of the crust 10-Part6 Keywords; geology,crust,earthquakes,sudbury,glacial rebound •Two processes of deformation; loading of Ice and pushing of plates •Hudson Bay -- Glacial rebound (Hudson Bay will eventually disappear and the rise of the surrounding land) •Canadian rockies examples of thrust plane and showing extreme compression •Different examples of behavior of rocks in compression and tension •Tension cracks -
57:06Living Rock: An Introduction to Earth's Geology
Living Rock: An Introduction to Earth's GeologyLiving Rock: An Introduction to Earth's Geology
Living Rock - An Introduction to Earth's Geology movie was released Aug 13, 2002 by the DVD International studio. Ever wonder why earthquakes happen, or how a volcano works? Living Rock - An Introduction to Earth's Geology movie Find the answers to these and many other questions in LIVING ROCK, a fun and educational program about the Earth's geology, jointly produced by the US Geological Survey and Alpha DVD. Living Rock - An Introduction to Earth's Geology video Introduces concepts such as Geologic Time, Continental Crust, Plate Tectonics, Volcanic Activity, Earthquakes, Subduction Zones, Erosion, and Glaciers. Facebook Page: https://www.facebook.com/geology.page Twitter : http://twitter.com/geologypage Youtube : http://www.youtube.com/user/GeologyPage Google+ : https://plus.google.com/101351700113202974849 LinkedIn : http://www.linkedin.com/company/geology-page Pinterest : http://www.pinterest.com/GeologyPage Instagram : http://instagram.com/geologypage Geology Page: http://www.geologypage.com/ -
10:01Folds
FoldsFolds
Mr. Lima discusses how the crust folds under different types of stress -
9:21Crustal Deformation - Part 1
Crustal Deformation - Part 1Crustal Deformation - Part 1
Lecture on crustal deformation - 1 -
3:59Crust, Mantle, Cores Song
Crust, Mantle, Cores SongCrust, Mantle, Cores Song
For all mountains, ocean floor, will give it shape It’s only 5 to 40 km in length This is the outer part, the crust it is its name You’d think it wider on it’s own well it ain’t And geologists will study rock Constantly changing, forces affect surface Constructive opposite destructive It’s building up or breaking down And we think Earth’s insides something Four different layers of stacked, seismic waves tell us that The crust is rock, soil too and it’s like the outer one It ranges 5 to 40 km long And dive down the mantle has a job, convection is going on Lithosphere stone, asthenosphere is weak and soft Outer core is like a wave of metal mush Oh, baby nickel, iron, liquid gel And we do think that inner’s holding on to atoms Squeezing tight a solid shell And as we move lower rock melts and it bends Magnesium, iron, silicon, oxygen Convection currents churning hot-rises, cold-down Asthenosphere pushes lithosphere along And geologists will study rock Constantly changing, forces affect surface Constructive opposite destructive It’s building up or breaking down And we think Earth’s insides something Four different layers of stacked, seismic waves tell us that The crust is rock, soil too and it’s like the outer one It ranges 5 to 40 km long And dive down the mantle has a job, convection is going on Lithosphere stone, asthenosphere is weak and soft Outer core is like a wave of metal mush Oh, baby nickel, iron, liquid gel And we do think that inner’s holding on to atoms Squeezing tight a solid shell For all inside the Earth’s made of two cores Outer is made of all iron, nickel metal And always stays molten when pressure is incredible But changing the rule inner is a solid ball Outer core is like a wave of metal mush Oh, baby nickel, iron, liquid gel And we do think that inner’s holding on to atoms Squeezing tight a solid shell Outer core is like a wave of metal mush Oh, baby nickel, iron, liquid gel And we do think that inner’s holding on to atoms Squeezing tight a solid shell -
6:02Geology Kitchen #9 - Plate Tectonics
Geology Kitchen #9 - Plate TectonicsGeology Kitchen #9 - Plate Tectonics
This episode discusses the scientific theory of plate tectonics, in which the Earth's crust is subdivided into a series of large and small tectonic plates. Convergent, divergent or transform boundaries are discussed and demonstrated with brittle graham crackers and icing to illustrate the motions of the plates at these boundaries. A second demonstration consisting of heating cream in a pan, representing convecting upper mantle, driving a relatively brittle layer of cocoa powder (the Crust). -
6:26Learn About Lithospheric Plates || Earth's crust || Earth Science
Learn About Lithospheric Plates || Earth's crust || Earth ScienceLearn About Lithospheric Plates || Earth's crust || Earth Science
Lithospheric plates Lithospheric plates are regions of Earth's crust and upper mantle that are fractured into plates that move across a deeper plasticine mantle. Earth's crust is fractured into 13 major and approximately 20 total lithospheric plates. Each lithospheric plate is composed of a layer of oceanic crust or continental crust superficial to an outer layer of the mantle. Containing both crust and the upper region of the mantle, lithospheric plates are generally considered to be approximately 60 mi (100 km) thick. Although containing only continental crust or oceanic crust in any one cross-section, lithospheric plates may contain various sections that exclusively contain either oceanic crust or continental crust and therefore lithospheric plates may contain various combinations of oceanic and continental crust. Lithospheric plates move on top of the asthenosphere (the outer plastically deforming region of Earth's mantle). The term "plate" is deceptive. Remembering that Earth is an oblate sphere, lithospheric plates are not flat, but curved and fractured into curved sections akin to the peeled sections of an orange. Accordingly, analysis of lithospheric plate movements and dynamics requires more sophisticated mathematics that account for the curvature of the plates. In geological terms, there are three types of boundaries between lithospheric plates. At divergent boundaries, lithospheric plates move apart and crust is created. At convergent boundaries, lithospheric plates move together in collision zones where crust is either destroyed by subduction or uplifted to form mountain chains . Lateral movements between lithospheric plates create transform faults at the sites of plate slippage. At each of the unique lithospheric plate boundaries there are specific geophysical forces that are characteristic of the plate dynamics. At transform boundaries there are shearing forces between the lithospheric plates. At divergent boundaries, tensional forces dominate the interaction between plates. At subduction sites, compression of lithospheric plate material dominates. The dynamics of plate tectonics , driven by deeper thermal processes, stress and cause elastic strain on lithospheric materials. Resulting fractures of rock in the lithosphere cause a release of energy in the form of seismic waves (i.e. an earthquake ). Because Earth's diameter remains constant, there is no net creation or destruction of lithospheric plates. In contrast to the technical definition of lithosphere used by geologists, many geographers use the term lithosphere to denote landmass. This is a distinct concept as the geological definition of lithosphere may include sections containing oceanic crust completely submerged beneath Earth's oceans . Using the geographical definition, Earth is approximately 71% hydrosphere (a region covered by water ) and 21% lithosphere (a region of land). See also Dating methods; Earth, interior structure; Hawaiian Island formation; Mantle plumes; Mapping techniques; Mid-ocean ridges and rifts; Mohorovicic discontinuity (Moho); Ocean trenches; Rifting and rift valleys; Subduction zone
-
Crust (geology)
In geology, the crust is the outermost solid shell of a rocky planet or natural satellite, which is chemically distinct from the underlying mantle. The crusts of Earth, the Moon, Mercury, Venus, Mars, Io, and other planetary bodies have been generated largely by igneous processes, and these crusts are richer in incompatible elements than their respective mantles. This video is targeted to blind users. Attribution: Article text available under CC-BY-SA Creative Commons image source in video
published: 25 Aug 2014 -
Geology: Continental Crust
continental crust
published: 05 Dec 2008 -
Physical Geology: Plate Tectonics, continental margins & ocean crust
published: 26 Aug 2015 -
FULL EPISODE Lesson 10 Deformation of the Crust - Understanding the Earth
Deformation of the crust - Geological Interpretation - How rocks behave under stress, to better understand earthquakes. (60minutes) Host; Dr. David Pearson. •What is stress? •What is directed stress and elastic deformation •What is confining stress and plastic behaviour •Plastic behaviour of folds (anticline/syncline) •Description of folds ie limbs •Normal faults •Reverse fault •Thrust fault •Graben/Horst (Graben -- Yellowknife example) •Illustrated images of folds •Illustrated images of faults •Strike and dip Part 3 Deformation of the crust 10-Part3 • and Dip continued •Obtaining strike and dip on strata •Northern Ontario and Arctic •Dr Ridler from Geological Survey of Canada; describing folds •Segment on diamond drilling and extracted core from the barrel •Interpreting rock layer...
published: 30 May 2014 -
Living Rock: An Introduction to Earth's Geology
Living Rock - An Introduction to Earth's Geology movie was released Aug 13, 2002 by the DVD International studio. Ever wonder why earthquakes happen, or how a volcano works? Living Rock - An Introduction to Earth's Geology movie Find the answers to these and many other questions in LIVING ROCK, a fun and educational program about the Earth's geology, jointly produced by the US Geological Survey and Alpha DVD. Living Rock - An Introduction to Earth's Geology video Introduces concepts such as Geologic Time, Continental Crust, Plate Tectonics, Volcanic Activity, Earthquakes, Subduction Zones, Erosion, and Glaciers. Facebook Page: https://www.facebook.com/geology.page Twitter : http://twitter.com/geologypage Youtube : http://www.youtube.com/user/GeologyPage Google+ : https://plus.google.co...
published: 18 Jul 2015 -
-
Crustal Deformation - Part 1
Lecture on crustal deformation - 1
published: 06 Apr 2010 -
Crust, Mantle, Cores Song
For all mountains, ocean floor, will give it shape It’s only 5 to 40 km in length This is the outer part, the crust it is its name You’d think it wider on it’s own well it ain’t And geologists will study rock Constantly changing, forces affect surface Constructive opposite destructive It’s building up or breaking down And we think Earth’s insides something Four different layers of stacked, seismic waves tell us that The crust is rock, soil too and it’s like the outer one It ranges 5 to 40 km long And dive down the mantle has a job, convection is going on Lithosphere stone, asthenosphere is weak and soft Outer core is like a wave of metal mush Oh, baby nickel, iron, liquid gel And we do think that inner’s holding on to atoms Squeezing tight a solid shell And as we move lower rock melts ...
published: 18 Jan 2016 -
Geology Kitchen #9 - Plate Tectonics
This episode discusses the scientific theory of plate tectonics, in which the Earth's crust is subdivided into a series of large and small tectonic plates. Convergent, divergent or transform boundaries are discussed and demonstrated with brittle graham crackers and icing to illustrate the motions of the plates at these boundaries. A second demonstration consisting of heating cream in a pan, representing convecting upper mantle, driving a relatively brittle layer of cocoa powder (the Crust).
published: 03 Dec 2012 -
Learn About Lithospheric Plates || Earth's crust || Earth Science
Lithospheric plates Lithospheric plates are regions of Earth's crust and upper mantle that are fractured into plates that move across a deeper plasticine mantle. Earth's crust is fractured into 13 major and approximately 20 total lithospheric plates. Each lithospheric plate is composed of a layer of oceanic crust or continental crust superficial to an outer layer of the mantle. Containing both crust and the upper region of the mantle, lithospheric plates are generally considered to be approximately 60 mi (100 km) thick. Although containing only continental crust or oceanic crust in any one cross-section, lithospheric plates may contain various sections that exclusively contain either oceanic crust or continental crust and therefore lithospheric plates may contain various combinations of oc...
published: 27 Aug 2015
Crust (geology)
- Order: Reorder
- Duration: 8:30
- Updated: 25 Aug 2014
- views: 150
In geology, the crust is the outermost solid shell of a rocky planet or natural satellite, which is chemically distinct from the underlying mantle. The crusts o...
In geology, the crust is the outermost solid shell of a rocky planet or natural satellite, which is chemically distinct from the underlying mantle. The crusts of Earth, the Moon, Mercury, Venus, Mars, Io, and other planetary bodies have been generated largely by igneous processes, and these crusts are richer in incompatible elements than their respective mantles.
This video is targeted to blind users.
Attribution:
Article text available under CC-BY-SA
Creative Commons image source in video
wn.com/Crust (Geology)
In geology, the crust is the outermost solid shell of a rocky planet or natural satellite, which is chemically distinct from the underlying mantle. The crusts of Earth, the Moon, Mercury, Venus, Mars, Io, and other planetary bodies have been generated largely by igneous processes, and these crusts are richer in incompatible elements than their respective mantles.
This video is targeted to blind users.
Attribution:
Article text available under CC-BY-SA
Creative Commons image source in video
- published: 25 Aug 2014
- views: 150
Geology: Continental Crust
- Order: Reorder
- Duration: 0:22
- Updated: 05 Dec 2008
- views: 7555
continental crust
continental crust
wn.com/Geology Continental Crust
continental crust
- published: 05 Dec 2008
- views: 7555
Physical Geology: Plate Tectonics, continental margins & ocean crust
- Order: Reorder
- Duration: 12:00
- Updated: 26 Aug 2015
- views: 73
- published: 26 Aug 2015
- views: 73
FULL EPISODE Lesson 10 Deformation of the Crust - Understanding the Earth
- Order: Reorder
- Duration: 86:45
- Updated: 30 May 2014
- views: 2496
Deformation of the crust - Geological Interpretation - How rocks behave under stress, to better understand earthquakes. (60minutes)
Host; Dr. David Pearson.
•...
Deformation of the crust - Geological Interpretation - How rocks behave under stress, to better understand earthquakes. (60minutes)
Host; Dr. David Pearson.
•What is stress?
•What is directed stress and elastic deformation
•What is confining stress and plastic behaviour
•Plastic behaviour of folds (anticline/syncline)
•Description of folds ie limbs
•Normal faults
•Reverse fault
•Thrust fault
•Graben/Horst (Graben -- Yellowknife example)
•Illustrated images of folds
•Illustrated images of faults
•Strike and dip
Part 3 Deformation of the crust 10-Part3
• and Dip continued
•Obtaining strike and dip on strata
•Northern Ontario and Arctic
•Dr Ridler from Geological Survey of Canada; describing folds
•Segment on diamond drilling and extracted core from the barrel
•Interpreting rock layering from core
•Rock fracture/fault San Andreas Fault -- Transform Fault (slide horizontal)
•San Andreas Fault description and identification
Part 4 Deformation of the crust 10-Part4
•San Andreas Fault description and identification continued
•Dr John Crowell University of California describing fault San Andreas Fault - http://www.sbnature.org/dibblee/newweb/1998medal.html
•Dr John Crowell University of California describing fault zone -- fossil screed
•Rock reaching its plastic limit of San Andreas fault
•Laboratory of rock reaching its elastic and plastic phase
•Heating / breaking of foreshocks of rocks prior to an earthquake
•Movement and displacement of a fault can be identified by collecting rock samples at various location on a fault and matching them at various locations away.
•Observing rock during the elastic deformation
•Japanese scientists use; water in a tube monitors elasticity of rock
•Japanese use foreshocks for the prediction in quakes
•Japan Sept 6 1966 -- actual footage of an earthquake
•Underground nuclear explosion footage/images
•Releasing earthquakes -- Denver area, US Army pumping, contaminated waste 150 million gallons down a 3 mile deep hole experiments.
Part 6 Deformation of the crust 10-Part6
Keywords; geology,crust,earthquakes,sudbury,glacial rebound
•Two processes of deformation; loading of Ice and pushing of plates
•Hudson Bay -- Glacial rebound (Hudson Bay will eventually disappear and the rise of the surrounding land)
•Canadian rockies examples of thrust plane and showing extreme compression
•Different examples of behavior of rocks in compression and tension
•Tension cracks
wn.com/Full Episode Lesson 10 Deformation Of The Crust Understanding The Earth
Deformation of the crust - Geological Interpretation - How rocks behave under stress, to better understand earthquakes. (60minutes)
Host; Dr. David Pearson.
•What is stress?
•What is directed stress and elastic deformation
•What is confining stress and plastic behaviour
•Plastic behaviour of folds (anticline/syncline)
•Description of folds ie limbs
•Normal faults
•Reverse fault
•Thrust fault
•Graben/Horst (Graben -- Yellowknife example)
•Illustrated images of folds
•Illustrated images of faults
•Strike and dip
Part 3 Deformation of the crust 10-Part3
• and Dip continued
•Obtaining strike and dip on strata
•Northern Ontario and Arctic
•Dr Ridler from Geological Survey of Canada; describing folds
•Segment on diamond drilling and extracted core from the barrel
•Interpreting rock layering from core
•Rock fracture/fault San Andreas Fault -- Transform Fault (slide horizontal)
•San Andreas Fault description and identification
Part 4 Deformation of the crust 10-Part4
•San Andreas Fault description and identification continued
•Dr John Crowell University of California describing fault San Andreas Fault - http://www.sbnature.org/dibblee/newweb/1998medal.html
•Dr John Crowell University of California describing fault zone -- fossil screed
•Rock reaching its plastic limit of San Andreas fault
•Laboratory of rock reaching its elastic and plastic phase
•Heating / breaking of foreshocks of rocks prior to an earthquake
•Movement and displacement of a fault can be identified by collecting rock samples at various location on a fault and matching them at various locations away.
•Observing rock during the elastic deformation
•Japanese scientists use; water in a tube monitors elasticity of rock
•Japanese use foreshocks for the prediction in quakes
•Japan Sept 6 1966 -- actual footage of an earthquake
•Underground nuclear explosion footage/images
•Releasing earthquakes -- Denver area, US Army pumping, contaminated waste 150 million gallons down a 3 mile deep hole experiments.
Part 6 Deformation of the crust 10-Part6
Keywords; geology,crust,earthquakes,sudbury,glacial rebound
•Two processes of deformation; loading of Ice and pushing of plates
•Hudson Bay -- Glacial rebound (Hudson Bay will eventually disappear and the rise of the surrounding land)
•Canadian rockies examples of thrust plane and showing extreme compression
•Different examples of behavior of rocks in compression and tension
•Tension cracks
- published: 30 May 2014
- views: 2496
Living Rock: An Introduction to Earth's Geology
- Order: Reorder
- Duration: 57:06
- Updated: 18 Jul 2015
- views: 6960
Living Rock - An Introduction to Earth's Geology movie was released Aug 13, 2002 by the DVD International studio. Ever wonder why earthquakes happen, or how a v...
Living Rock - An Introduction to Earth's Geology movie was released Aug 13, 2002 by the DVD International studio. Ever wonder why earthquakes happen, or how a volcano works? Living Rock - An Introduction to Earth's Geology movie Find the answers to these and many other questions in LIVING ROCK, a fun and educational program about the Earth's geology, jointly produced by the US Geological Survey and Alpha DVD.
Living Rock - An Introduction to Earth's Geology video Introduces concepts such as Geologic Time, Continental Crust, Plate Tectonics, Volcanic Activity, Earthquakes, Subduction Zones, Erosion, and Glaciers.
Facebook Page: https://www.facebook.com/geology.page
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Geology Page: http://www.geologypage.com/
wn.com/Living Rock An Introduction To Earth's Geology
Living Rock - An Introduction to Earth's Geology movie was released Aug 13, 2002 by the DVD International studio. Ever wonder why earthquakes happen, or how a volcano works? Living Rock - An Introduction to Earth's Geology movie Find the answers to these and many other questions in LIVING ROCK, a fun and educational program about the Earth's geology, jointly produced by the US Geological Survey and Alpha DVD.
Living Rock - An Introduction to Earth's Geology video Introduces concepts such as Geologic Time, Continental Crust, Plate Tectonics, Volcanic Activity, Earthquakes, Subduction Zones, Erosion, and Glaciers.
Facebook Page: https://www.facebook.com/geology.page
Twitter : http://twitter.com/geologypage
Youtube : http://www.youtube.com/user/GeologyPage
Google+ : https://plus.google.com/101351700113202974849
LinkedIn : http://www.linkedin.com/company/geology-page
Pinterest : http://www.pinterest.com/GeologyPage
Instagram : http://instagram.com/geologypage
Geology Page: http://www.geologypage.com/
- published: 18 Jul 2015
- views: 6960
Folds
- Order: Reorder
- Duration: 10:01
- Updated: 14 Feb 2012
- views: 7229
Mr. Lima discusses how the crust folds under different types of stress
Mr. Lima discusses how the crust folds under different types of stress
wn.com/Folds
Mr. Lima discusses how the crust folds under different types of stress
- published: 14 Feb 2012
- views: 7229
Crustal Deformation - Part 1
- Order: Reorder
- Duration: 9:21
- Updated: 06 Apr 2010
- views: 4278
Lecture on crustal deformation - 1
Lecture on crustal deformation - 1
wn.com/Crustal Deformation Part 1
Lecture on crustal deformation - 1
- published: 06 Apr 2010
- views: 4278
Crust, Mantle, Cores Song
- Order: Reorder
- Duration: 3:59
- Updated: 18 Jan 2016
- views: 38216
For all mountains, ocean floor, will give it shape
It’s only 5 to 40 km in length
This is the outer part, the crust it is its name
You’d think it wider on it’s ...
For all mountains, ocean floor, will give it shape
It’s only 5 to 40 km in length
This is the outer part, the crust it is its name
You’d think it wider on it’s own well it ain’t
And geologists will study rock
Constantly changing, forces affect surface
Constructive opposite destructive
It’s building up or breaking down
And we think Earth’s insides something
Four different layers of stacked, seismic waves tell us that
The crust is rock, soil too and it’s like the outer one
It ranges 5 to 40 km long
And dive down the mantle has a job, convection is going on
Lithosphere stone, asthenosphere is weak and soft
Outer core is like a wave of metal mush
Oh, baby nickel, iron, liquid gel
And we do think that inner’s holding on to atoms
Squeezing tight a solid shell
And as we move lower rock melts and it bends
Magnesium, iron, silicon, oxygen
Convection currents churning hot-rises, cold-down
Asthenosphere pushes lithosphere along
And geologists will study rock
Constantly changing, forces affect surface
Constructive opposite destructive
It’s building up or breaking down
And we think Earth’s insides something
Four different layers of stacked, seismic waves tell us that
The crust is rock, soil too and it’s like the outer one
It ranges 5 to 40 km long
And dive down the mantle has a job, convection is going on
Lithosphere stone, asthenosphere is weak and soft
Outer core is like a wave of metal mush
Oh, baby nickel, iron, liquid gel
And we do think that inner’s holding on to atoms
Squeezing tight a solid shell
For all inside the Earth’s made of two cores
Outer is made of all iron, nickel metal
And always stays molten when pressure is incredible
But changing the rule inner is a solid ball
Outer core is like a wave of metal mush
Oh, baby nickel, iron, liquid gel
And we do think that inner’s holding on to atoms
Squeezing tight a solid shell
Outer core is like a wave of metal mush
Oh, baby nickel, iron, liquid gel
And we do think that inner’s holding on to atoms
Squeezing tight a solid shell
wn.com/Crust, Mantle, Cores Song
For all mountains, ocean floor, will give it shape
It’s only 5 to 40 km in length
This is the outer part, the crust it is its name
You’d think it wider on it’s own well it ain’t
And geologists will study rock
Constantly changing, forces affect surface
Constructive opposite destructive
It’s building up or breaking down
And we think Earth’s insides something
Four different layers of stacked, seismic waves tell us that
The crust is rock, soil too and it’s like the outer one
It ranges 5 to 40 km long
And dive down the mantle has a job, convection is going on
Lithosphere stone, asthenosphere is weak and soft
Outer core is like a wave of metal mush
Oh, baby nickel, iron, liquid gel
And we do think that inner’s holding on to atoms
Squeezing tight a solid shell
And as we move lower rock melts and it bends
Magnesium, iron, silicon, oxygen
Convection currents churning hot-rises, cold-down
Asthenosphere pushes lithosphere along
And geologists will study rock
Constantly changing, forces affect surface
Constructive opposite destructive
It’s building up or breaking down
And we think Earth’s insides something
Four different layers of stacked, seismic waves tell us that
The crust is rock, soil too and it’s like the outer one
It ranges 5 to 40 km long
And dive down the mantle has a job, convection is going on
Lithosphere stone, asthenosphere is weak and soft
Outer core is like a wave of metal mush
Oh, baby nickel, iron, liquid gel
And we do think that inner’s holding on to atoms
Squeezing tight a solid shell
For all inside the Earth’s made of two cores
Outer is made of all iron, nickel metal
And always stays molten when pressure is incredible
But changing the rule inner is a solid ball
Outer core is like a wave of metal mush
Oh, baby nickel, iron, liquid gel
And we do think that inner’s holding on to atoms
Squeezing tight a solid shell
Outer core is like a wave of metal mush
Oh, baby nickel, iron, liquid gel
And we do think that inner’s holding on to atoms
Squeezing tight a solid shell
- published: 18 Jan 2016
- views: 38216
Geology Kitchen #9 - Plate Tectonics
- Order: Reorder
- Duration: 6:02
- Updated: 03 Dec 2012
- views: 40903
This episode discusses the scientific theory of plate tectonics, in which the Earth's crust is subdivided into a series of large and small tectonic plates. Conv...
This episode discusses the scientific theory of plate tectonics, in which the Earth's crust is subdivided into a series of large and small tectonic plates. Convergent, divergent or transform boundaries are discussed and demonstrated with brittle graham crackers and icing to illustrate the motions of the plates at these boundaries. A second demonstration consisting of heating cream in a pan, representing convecting upper mantle, driving a relatively brittle layer of cocoa powder (the Crust).
wn.com/Geology Kitchen 9 Plate Tectonics
This episode discusses the scientific theory of plate tectonics, in which the Earth's crust is subdivided into a series of large and small tectonic plates. Convergent, divergent or transform boundaries are discussed and demonstrated with brittle graham crackers and icing to illustrate the motions of the plates at these boundaries. A second demonstration consisting of heating cream in a pan, representing convecting upper mantle, driving a relatively brittle layer of cocoa powder (the Crust).
- published: 03 Dec 2012
- views: 40903
Learn About Lithospheric Plates || Earth's crust || Earth Science
- Order: Reorder
- Duration: 6:26
- Updated: 27 Aug 2015
- views: 6998
Lithospheric plates
Lithospheric plates are regions of Earth's crust and upper mantle that are fractured into plates that move across a deeper plasticine mantle...
Lithospheric plates
Lithospheric plates are regions of Earth's crust and upper mantle that are fractured into plates that move across a deeper plasticine mantle.
Earth's crust is fractured into 13 major and approximately 20 total lithospheric plates. Each lithospheric plate is composed of a layer of oceanic crust or continental crust superficial to an outer layer of the mantle. Containing both crust and the upper region of the mantle, lithospheric plates are generally considered to be approximately 60 mi (100 km) thick. Although containing only continental crust or oceanic crust in any one cross-section, lithospheric plates may contain various sections that exclusively contain either oceanic crust or continental crust and therefore lithospheric plates may contain various combinations of oceanic and continental crust. Lithospheric plates move on top of the asthenosphere (the outer plastically deforming region of Earth's mantle).
The term "plate" is deceptive. Remembering that Earth is an oblate sphere, lithospheric plates are not flat, but curved and fractured into curved sections akin to the peeled sections of an orange. Accordingly, analysis of lithospheric plate movements and dynamics requires more sophisticated mathematics that account for the curvature of the plates.
In geological terms, there are three types of boundaries between lithospheric plates. At divergent boundaries, lithospheric plates move apart and crust is created. At convergent boundaries, lithospheric plates move together in collision zones where crust is either destroyed by subduction or uplifted to form mountain chains . Lateral movements between lithospheric plates create transform faults at the sites of plate slippage.
At each of the unique lithospheric plate boundaries there are specific geophysical forces that are characteristic of the plate dynamics. At transform boundaries there are shearing forces between the lithospheric plates. At divergent boundaries, tensional forces dominate the interaction between plates. At subduction sites, compression of lithospheric plate material dominates.
The dynamics of plate tectonics , driven by deeper thermal processes, stress and cause elastic strain on lithospheric materials. Resulting fractures of rock in the lithosphere cause a release of energy in the form of seismic waves (i.e. an earthquake ).
Because Earth's diameter remains constant, there is no net creation or destruction of lithospheric plates.
In contrast to the technical definition of lithosphere used by geologists, many geographers use the term lithosphere to denote landmass. This is a distinct concept as the geological definition of lithosphere may include sections containing oceanic crust completely submerged beneath Earth's oceans . Using the geographical definition, Earth is approximately 71% hydrosphere (a region covered by water ) and 21% lithosphere (a region of land).
See also Dating methods; Earth, interior structure; Hawaiian Island formation; Mantle plumes; Mapping techniques; Mid-ocean ridges and rifts; Mohorovicic discontinuity (Moho); Ocean trenches; Rifting and rift valleys; Subduction zone
wn.com/Learn About Lithospheric Plates || Earth's Crust || Earth Science
Lithospheric plates
Lithospheric plates are regions of Earth's crust and upper mantle that are fractured into plates that move across a deeper plasticine mantle.
Earth's crust is fractured into 13 major and approximately 20 total lithospheric plates. Each lithospheric plate is composed of a layer of oceanic crust or continental crust superficial to an outer layer of the mantle. Containing both crust and the upper region of the mantle, lithospheric plates are generally considered to be approximately 60 mi (100 km) thick. Although containing only continental crust or oceanic crust in any one cross-section, lithospheric plates may contain various sections that exclusively contain either oceanic crust or continental crust and therefore lithospheric plates may contain various combinations of oceanic and continental crust. Lithospheric plates move on top of the asthenosphere (the outer plastically deforming region of Earth's mantle).
The term "plate" is deceptive. Remembering that Earth is an oblate sphere, lithospheric plates are not flat, but curved and fractured into curved sections akin to the peeled sections of an orange. Accordingly, analysis of lithospheric plate movements and dynamics requires more sophisticated mathematics that account for the curvature of the plates.
In geological terms, there are three types of boundaries between lithospheric plates. At divergent boundaries, lithospheric plates move apart and crust is created. At convergent boundaries, lithospheric plates move together in collision zones where crust is either destroyed by subduction or uplifted to form mountain chains . Lateral movements between lithospheric plates create transform faults at the sites of plate slippage.
At each of the unique lithospheric plate boundaries there are specific geophysical forces that are characteristic of the plate dynamics. At transform boundaries there are shearing forces between the lithospheric plates. At divergent boundaries, tensional forces dominate the interaction between plates. At subduction sites, compression of lithospheric plate material dominates.
The dynamics of plate tectonics , driven by deeper thermal processes, stress and cause elastic strain on lithospheric materials. Resulting fractures of rock in the lithosphere cause a release of energy in the form of seismic waves (i.e. an earthquake ).
Because Earth's diameter remains constant, there is no net creation or destruction of lithospheric plates.
In contrast to the technical definition of lithosphere used by geologists, many geographers use the term lithosphere to denote landmass. This is a distinct concept as the geological definition of lithosphere may include sections containing oceanic crust completely submerged beneath Earth's oceans . Using the geographical definition, Earth is approximately 71% hydrosphere (a region covered by water ) and 21% lithosphere (a region of land).
See also Dating methods; Earth, interior structure; Hawaiian Island formation; Mantle plumes; Mapping techniques; Mid-ocean ridges and rifts; Mohorovicic discontinuity (Moho); Ocean trenches; Rifting and rift valleys; Subduction zone
- published: 27 Aug 2015
- views: 6998
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8:30
Crust (geology)
In geology, the crust is the outermost solid shell of a rocky planet or natural satellite,...
published: 25 Aug 2014
Crust (geology)
Crust (geology)
- Report rights infringement
- published: 25 Aug 2014
- views: 150
0:22
Geology: Continental Crust
continental crust
published: 05 Dec 2008
Geology: Continental Crust
Geology: Continental Crust
- Report rights infringement
- published: 05 Dec 2008
- views: 7555
12:00
Physical Geology: Plate Tectonics, continental margins & ocean crust
published: 26 Aug 2015
Physical Geology: Plate Tectonics, continental margins & ocean crust
Physical Geology: Plate Tectonics, continental margins & ocean crust
- Report rights infringement
- published: 26 Aug 2015
- views: 73
86:45
FULL EPISODE Lesson 10 Deformation of the Crust - Understanding the Earth
Deformation of the crust - Geological Interpretation - How rocks behave under stress, to b...
published: 30 May 2014
FULL EPISODE Lesson 10 Deformation of the Crust - Understanding the Earth
FULL EPISODE Lesson 10 Deformation of the Crust - Understanding the Earth
- Report rights infringement
- published: 30 May 2014
- views: 2496
57:06
Living Rock: An Introduction to Earth's Geology
Living Rock - An Introduction to Earth's Geology movie was released Aug 13, 2002 by the DV...
published: 18 Jul 2015
Living Rock: An Introduction to Earth's Geology
Living Rock: An Introduction to Earth's Geology
- Report rights infringement
- published: 18 Jul 2015
- views: 6960
10:01
Folds
Mr. Lima discusses how the crust folds under different types of stress
published: 14 Feb 2012
Folds
Folds
- Report rights infringement
- published: 14 Feb 2012
- views: 7229
9:21
Crustal Deformation - Part 1
Lecture on crustal deformation - 1
published: 06 Apr 2010
Crustal Deformation - Part 1
Crustal Deformation - Part 1
- Report rights infringement
- published: 06 Apr 2010
- views: 4278
3:59
Crust, Mantle, Cores Song
For all mountains, ocean floor, will give it shape
It’s only 5 to 40 km in length
This is ...
published: 18 Jan 2016
Crust, Mantle, Cores Song
Crust, Mantle, Cores Song
- Report rights infringement
- published: 18 Jan 2016
- views: 38216
6:02
Geology Kitchen #9 - Plate Tectonics
This episode discusses the scientific theory of plate tectonics, in which the Earth's crus...
published: 03 Dec 2012
Geology Kitchen #9 - Plate Tectonics
Geology Kitchen #9 - Plate Tectonics
- Report rights infringement
- published: 03 Dec 2012
- views: 40903
6:26
Learn About Lithospheric Plates || Earth's crust || Earth Science
Lithospheric plates
Lithospheric plates are regions of Earth's crust and upper mantle that...
published: 27 Aug 2015
Learn About Lithospheric Plates || Earth's crust || Earth Science
Learn About Lithospheric Plates || Earth's crust || Earth Science
- Report rights infringement
- published: 27 Aug 2015
- views: 6998
Crust (geology)...
Geology: Continental Crust...
Physical Geology: Plate Tectonics, continental mar...
FULL EPISODE Lesson 10 Deformation of the Crust - ...
Living Rock: An Introduction to Earth's Geology...
Folds...
Crustal Deformation - Part 1...
Crust, Mantle, Cores Song...
Geology Kitchen #9 - Plate Tectonics...
Learn About Lithospheric Plates || Earth's crust |...
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Israeli human rights group urges UN to take action to end country's 'brutal' occupation of Palestine
Edit The Independent 15 Oct 2016
An Israeli human rights group urged the UN Security Council to take decisive action now to end the country's occupation of Palestinian territory ... Mr El-Ad stressed that the council "has more than just power....
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[VIDEO]: Report: Saddam Hussein Had Secret Torture Chamber In NYC Embassy
Edit WorldNews.com 14 Oct 2016
Rumors abound former Iraqi despot Saddam Hussein kept a torture chamber in the basement of the Iraqi mission at 14 E. 79th St., New York magazine reported. If true, the report said, the torture chamber was in operation for years in one of New York City’s toniest neighborhoods, near Central Park and directly across the street from the home of former New York City Mayor billionaire Michael Bloomberg....
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Hope Solo hints at overseas move
Edit Rocky Mount Telegram 15 Oct 2016
STOCKHOLM (AP) — Hope Solo says she’s received several offers to play overseas and could even continue her career in Sweden, whose fans she enraged by describing their national team as “cowards” at the Rio Olympics. In a talk show aired late Friday on Swedish television network SVT, the American goalkeeper said she is still reeling from being kicked out by the U.S ... “I don’t really know where I’m going with my life right now,” she said....
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From Trump’s Impeachment To A Demonic Hillary, Americans Love Conspiracies
Edit WorldNews.com 14 Oct 2016
Article by WN.com Correspondent Dallas DarlingWho doesn’t love a good conspiracy? The answer is evidently millions of Americans. In fact, since the paranoia-styled politics of 9/11, almost everything our government leaders try to describe, or what is presented on television and in pages of “respectable” newspapers, appears to be inversions of historical reality ... Mike Pence the president. For now, Paul Ryan or Sen....
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Regent to stand in as Thai Crown Prince asks for time
Edit Newstrack India 15 Oct 2016
Bangkok, Oct 15 (IANS) The head of Thailand's Royal Advisory Council will stand in as regent before Crown Prince Maha Vajiralongkorn formally succeeds his father, late King Bhumibol Adulyadej, Deputy Prime Minister Wissanu Krea-ngam has said. The constitution specified that president of Privy Council would act as temporary regent when the throne became vacant, Xinhua news agency quoted Wisanu as saying on Friday ... --IANS ... ....
Have you been eating pizza wrong? Why you shouldn't pick up a slice by the crust
Edit NZ Herald 15 Oct 2016
Before you tuck into your Saturday night pizza, there's something you should know. you've been eating it the wrong way your entire life.That is, according to London-based food expert Daniel Young, who says there is a right and wrong... ....
Dukes Bar & Grille West brings together the best of its sister restaurants
Edit Penn Live 15 Oct 2016
Dockside Willies has the same oven, which produces evenly browned and crunchy edged crusts. My favorite is the garlicky veggie thin crust ($10.50) with tomato sauce peeking out between sliced mushrooms, peppers, olives and melted mozzarella cheese ... Says Carter ... ($11.95) ... Or there's Duke's signature, Peanut Butter Pie with its thick, almost chewy peanut butter filling smoothed into chocolate wafer crust and surrounded by Hershey syrup ... ....
Xiaobing Liu: Making geothermal heat pump technology a household name (Oak Ridge National Laboratory)
Edit Public Technologies 15 Oct 2016
(Source. Oak Ridge National Laboratory). October 5, 2016 - As a boy growing up in China, Xiaobing Liu knew all about Oak Ridge and the World War II Manhattan Project. He had no idea that he would one day work at DOE's Oak Ridge National Laboratory, the Secret City's successor ... Accessing energy stored in the Earth's crust to heat and cool buildings is a no-brainer to Liu ... for his Ph.D ... The software is still in wide use today ... (noodl....
Healthy pumpkin bread
Edit AOL 15 Oct 2016
Healthy Pumpkin Bread. This healthy pumpkin recipe only needs one bowl, and chances are you have everything you need to make it in your pantry right now ... They are wonderful paired together ... YIELD ... "Skip the pumpkin pie this year and go for these Pumpkin Pie Bars that are so much easier to make and to eat! An easy oat crust is topped with a creamy pumpkin filling and a sugary topping to take them over the top." - Taste and Tell....
#DNAReaderEdit | Ban on Pakistani actors: Can Bollywood leave politics alone?
Edit DNA India 15 Oct 2016
--> Mayuresh Didolkar . Sat, 15 Oct 2016-11.00am , dna. Bollywood can choose to live inside the bubble if it chooses to. We must, however, draw a line at the industry taking politics inside the bubble at its will and leaving others outside ... When asked about her feelings, she says. ... At a literal, horror novel level, this scene is about the malevolent hold that Mr ... At least in New York, the upper-crust liberals sometimes take the subway ... ....
Philadelphia's LGBT Nightlife Scene Buzzes Evening Through Late-Night At Center City Bars, Restaurants & Nightclubs (Visit Philadelphia - The Greater Philadelphia Tourism Marketing Corporation)
Edit Public Technologies 15 Oct 2016
(Source. Visit Philadelphia - The Greater Philadelphia Tourism Marketing Corporation). LGBT revelers of every stripe meet their nightlife matches among the buzz-worthy bars, restaurants and nightclubs in and beyond Philadelphia's Gayborhood ... Bars & Nightclubs. Bob & Barbara's is one of Philly's most legendary dive bars ... Think of it as a fancy-pants KFC, with white and dark tenders and wings-all buttermilk battered with a pretzel crust....
Now we're holding our pizza wrong! Why you should NEVER pick takeaway up by the crust
Edit The Daily Mail 14 Oct 2016Utrecht promotes interdisciplinary research into Earth’s crust in Europe (Universiteit Utrecht)
Edit Public Technologies 14 Oct 2016
Utrecht University will be a coordinating centre of digital infrastructure for research into the Earth's crust in Europe. The project is part of the wider European Plate Observing System (EPOS), a project designed to make research data from various disciplines on the Earth's crust in Europe available via open access in a fast and reliable way....
A true Italian bite
Edit Deccan Herald 14 Oct 2016
Pizza haven ... Another highlight of the eatery is that they offer pizzas in classic Italian style, meaning that the pizzas are thin-crusted ones. “We do not have a thick or stuffed crust as that is the American-style pizzas ... There have been times when people have asked him about why they only offer this crust and he and the team vouch that the customers have only gone back happy ... There are also interesting combos available ... ....
How to eat a pizza properly, according to the experts
Edit The Independent 14 Oct 2016
The correct way to eat a Neapolitan pizza, with a thin stone-baked crust, is to fold a slice in half ... ....
A not-so-grate cheese robbery! New Jersey man is arrested after...
Edit Topix 14 Oct 2016
... Palestinian cause You're eating pizza wrong! Why you should NEVER pick up your slice by the crust - and how to do it right Why you CAN eat food after it's been dropped on the floor....
What is Direct Grilling? (Ultra Modern Pool And Patio Inc)
Edit Public Technologies 14 Oct 2016
(Source. Ultra Modern Pool And Patio Inc). What is direct grilling?. When you grill direct, you place the food over the fire and cook by direct exposure to the flame and the heat. What are the benefits? ... With direct grilling, you are able to sear the outside surface of the meat to form a delicious crust ... Final Tip....
A farmhouse souffle recipe from Raymond Blanc
Edit The Guardian 14 Oct 2016
A staple on the family table in his working-class childhood in the Franche-Comté region, this simple cheesy souffle remains French maestro Raymond Blanc’s taste of home ... It was mesmerising ... The souffle base can be prepared a day in advance and kept in the fridge, the surface covered with buttered greaseproof paper to avoid crusting ... Serves 6 ... This coating will help the souffle to rise evenly in the oven and give it a beautiful crust ... ....
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