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The interior of the Earth , similar to the other Terrestrial Planets , is Chemical ly divided into layers. The Earth has an outer Silicate solid Crust , a highly viscous Mantle , a liquid outer core that is much less viscous than the mantle, and a solid Inner Core . Many of the rocks now making up the Earth's crust formed less than 100 million (1) years ago; however the oldest known mineral grains are 4.4 billion (4.4) years old, indicating that the Earth has had a solid crust for at least that long.http://spaceflightnow.com/news/n0101/14earthwater/

Much of what is known about the interior of the Earth has been inferred. The force exerted by Earth's gravity is one measurement of its mass. After measuring the volume of the planet, its density can be calculated. Astronomers also have performed similar planetary measurements. Calculation of the mass and volume of the surface rocks and bodies of water allow estimation of the mass, volume and density of surface rocks. The mass which is not in the atmosphere, oceans, and surface rocks must be in deeper layers.


STRUCTURE

The structure of the Earth is separated into two categories: chemically differentiated layers and layers reflecting the strengths and density of the materials. Chemically, the Earth can be divided into the crust, mantle, outer core, and inner core. By material strength, the layering of the earth is categorized as lithosphere, asthenosphere, upper mantle, lower mantle, outer core, and the inner core. The geologic component layers of the EarthT. H. Jordan, " Structural Geology of the Earth's Interior ", ''Proceedings of the National Academy of Science'', 1979, Sept., 76(9): 4192–4200. are at the following depths below the surface:

with Earthquake waves.]]
The layering of the Earth has been inferred indirectly using the time of travel of refracted and reflected seismic waves created by earthquakes. The core does not allow shear waves to pass through it, while the speed of travel (seismic velocity) is different in the other layers. The changes in the seismic velocity between the different layers causes refraction owing to Snell's Law . Reflections are caused by a large increase in seismic velocity and are similar to light reflecting from a mirror.


Core

The average density of Earth is 5515 Kg / M3 , making it the densest planet in the Solar system. Since the average density of surface material is only around 3000 kg/m3, we must conclude that denser materials exist within Earth's core. Further evidence for the high density core comes from the study of Seismology . In its earliest stages, about 4.5 billion (4.5) years ago, melting would have caused denser substances to sink toward the center in a process called Planetary Differentiation (see also the Iron Catastrophe ), while less-dense materials would have migrated to the Crust . As a result, the core is largely composed of iron (80%), along with Nickel and one or more light elements, whereas other dense elements, such as Lead and Uranium , either are too rare to be significant or tend to bind to lighter elements and thus remain in the crust (see Felsic Materials ). The matter that is the Earth is connected in fundamental ways to the matter of certain chondrite meteorites, and to the matter of the outer portion of the Sun Herndon, J. M., The chemical composition of the interior shells of the Earth. Proc. R. Soc. Lond, 1980, A372, 149-154.
Herndon, J. M., Scientific basis of knowledge on Earth's composition. Curr.Sci., 2005, 88(7), 1034-1037.. There is good reason to believe that the Earth is, in the main, like a chondrite meteorite. Beginning as early as 1940, scientists, including Francis Birch, built geophysics upon the premise that the Earth is like ordinary chondrites, the most common type of meteorite observed impacting Earth, while totally ignoring another, albeit less abundant type, called enstatite chondrites. The principal difference between the two meteorite types is that enstatite chondrites formed under circumstances of extremely limited available oxygen, leading to certain normally oxyphile elements existing either partially or wholly in the alloy portion that corresponds to the core of the Earth.

Seismic measurements show that the core is divided into two parts, a solid inner core with a , Platinum and other iron-loving ( Siderophile ) elements.Wootton, Anne (September 2006) "Earth's Inner Fort Knox" ''Discover'' 27(9): p.18;

It is generally believed that convection in the outer core, combined with stirring caused by the Earth's rotation (see: Coriolis Effect ), gives rise to the Earth's Magnetic Field through a process described by the Dynamo Theory . The solid inner core is too hot to hold a permanent magnetic field (see Curie Temperature ) but probably acts to stabilise the magnetic field generated by the liquid outer core.

Recent evidence has suggested that the inner core of Earth may rotate slightly faster than the rest of the planet.http://www.nytimes.com/2005/08/25/science/25cnd-core.html In August 2005 a team of Geophysicist s announced in the journal '' Science '' that, according to their estimates, Earth's inner core rotates approximately 0.3 to 0.5 degrees per year relative to the rotation of the surface.Kerr, Richard A. (26 August 2005) "Earth's Inner Core Is Running a Tad Faster Than the Rest of the Planet" ''Science'' 309(5739): p.1313;Chang, Kenneth (26 August 2005) "Scientists Say Earth's Center Rotates Faster Than Surface" ''The New York Times'' Sec. A, Col. 1, p.13;

The current scientific explanation for the Earth's temperature gradient is a combination of the heat left over from the planet's initial formation, the decay of radioactive elements, and the freezing of the inner core. Other theories include the Georeactor theory.


Mantle

See Also: Mantle (geology)



- B: ]]
and That Of Pitch 107 Pa·s. Thus, the mantle flows very slowly.


Crust

See Also: Crust (geology)


The crust ranges from 5 to 70 km in depth. The thin parts are Oceanic Crust composed of dense ( Mafic ) iron magnesium Silicate Rock s and underlie the ocean basins. The thicker crust is Continental Crust , which is less dense and composed of ( Felsic ) Sodium potassium Aluminium silicate rocks. The crust-mantle boundary occurs as two physically different events. First, there is a discontinuity in the Seismic velocity, which is known as the Mohorovičić Discontinuity or Moho. The cause of the Moho is thought to be a change in rock composition from rocks containing Plagioclase Feldspar (above) to rocks that contain no feldspars (below). Second, there is a Chemical discontinuity between Ultramafic cumulates and tectonized Harzburgite s, which has been observed from deep parts of the oceanic crust that have been Obducted into the continental crust and preserved as Ophiolite Sequences .


HISTORICAL DEVELOPMENT AND ALTERNATIVE CONCEPTIONS

In 1692 Edmund Halley (in a paper printed in ''Philosophical Transactions of Royal Society of London'') put forth the idea of Earth consisting of a hollow shell about 500 miles thick, with two inner concentric shells around an innermost core, corresponding to the diameters of the planets Venus, Mars, and Mercury respectively. N. Kollerstrom, 1992. "The hollow world of Edmond Halley" from ''Journal for History of Astronomy'' 23, 185-192 Halley's construct was a method of accounting for the (flawed) values of the relative density of the Earth and the Moon that had been given by Sir Isaac Newton, in ''Principia'' (1687).“Sir Isaac Newton has demonstrated the Moon to be more solid than our Earth, as 9 to 5" Halley remarked; "why may we not then suppose four ninths of our globe to be cavity?”

In 1818 , John Cleves Symmes, Jr. suggested that the Earth consisted of a hollow shell about 800 miles (1,300 km) thick, with openings about 1400 miles (2,300 km) across at both Pole s with 4 inner shells each open at the Pole s. Jules Verne , in '' Journey To The Center Of The Earth '' imagined vast interior caverns, and William Reed , in '' Phantom Of The Poles '' (1906) imagined a Hollow Earth .

Some Christian writers resisted the idea of a spherical Earth on theological grounds, without gaining widespread acceptance. The and the United States tried to revive flat Earth thinking in the 19th Century .

The drilling of the Kola Superdeep Borehole was the inspiration for an Urban Legend , the " Well To Hell Hoax ".


SEE ALSO




NOTES




REFERENCES

  • Herndon, J. Marvin (1994) ''Planetary and Protostellar Nuclear Fission: Implications for Planetary Change, Stellar Ignition and Dark Matter'' Proceedings: Mathematical and Physical Sciences, Vol. 445, No. 1924 (May 9, 1994) , pp. 453-461

  • Herndon, J. Marvin (1996) ''Substructure of the inner core of the Earth'' Vol. 93, Issue 2, 646-648, January 23, 1996, PNAS

  • Hollenbach, D. F. ,dagger and J. M. HerndonDagger (2001) ''Deep-Earth reactor: Nuclear fission, helium, and the geomagnetic field'' Published online before print September 18, 2001, 10.1073/pnas.201393998, September 25, 2001, vol. 98, no. 20, PNAS

  • Lehmann, I. (1936) ''Inner Earth'', Bur. Cent. Seismol. Int. 14, 3-31

  • Schneider, David (Oct 1996) ''A Spinning Crystal Ball'', Scientific American