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8.1 The global perspective  (Page 2/9)

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Interior structure of earth.

Cut-away View of the Interior of the Earth. This illustration shows the globe of the Earth with a wedge-shaped portion removed to reveal the interior. The inner core is labeled and represented as a small yellow sphere at the center. Next, the core is shown in orange and surrounds the inner core. The larger mantle surrounds the core and is drawn in taupe. Finally, the crust is indicated as a thin blue line.
The crust, mantle, and inner and outer cores (liquid and solid, respectively) as shown as revealed by seismic studies.

The top layer is the crust    , the part of Earth we know best ( [link] ). Oceanic crust covers 55% of Earth’s surface and lies mostly submerged under the oceans. It is typically about 6 kilometers thick and is composed of volcanic rocks called basalt    . Produced by the cooling of volcanic lava, basalts are made primarily of the elements silicon, oxygen, iron, aluminum, and magnesium. The continental crust covers 45% of the surface, some of which is also beneath the oceans. The continental crust is 20 to 70 kilometers thick and is composed predominantly of a different volcanic class of silicates (rocks made of silicon and oxygen) called granite    . These crustal rocks, both oceanic and continental, typically have densities of about 3 g/cm 3 . (For comparison, the density of water is 1 g/cm 3 .) The crust is the easiest layer for geologists to study, but it makes up only about 0.3% of the total mass of Earth.

Earth’s crust.

Computer-generated image of the entire Earth’s crust, including the details of the ocean floor.
This computer-generated image shows the surface of Earth’s crust as determined from satellite images and ocean floor radar mapping. Oceans and lakes are shown in blue, with darker areas representing depth. Dry land is shown in shades of green and brown, and the Greenland and Antarctic ice sheets are depicted in shades of white. (credit: modification of work by C. Amante, B. W. Eakins, National Geophysical Data Center, NOAA)

The largest part of the solid Earth, called the mantle    , stretches from the base of the crust downward to a depth of 2900 kilometers. The mantle is more or less solid, but at the temperatures and pressures found there, mantle rock can deform and flow slowly. The density in the mantle increases downward from about 3.5 g/cm 3 to more than 5 g/cm 3 as a result of the compression produced by the weight of overlying material. Samples of upper mantle material are occasionally ejected from volcanoes, permitting a detailed analysis of its chemistry.

Beginning at a depth of 2900 kilometers, we encounter the dense metallic core    of Earth. With a diameter of 7000 kilometers, our core is substantially larger than the entire planet Mercury. The outer core is liquid, but the innermost part of the core (about 2400 kilometers in diameter) is probably solid. In addition to iron, the core probably also contains substantial quantities of nickel and sulfur, all compressed to a very high density.

The separation of Earth into layers of different densities is an example of differentiation, the process of sorting the major components of a planet by density. The fact that Earth is differentiated suggests that it was once warm enough for its interior to melt, permitting the heavier metals to sink to the center and form the dense core. Evidence for differentiation comes from comparing the planet’s bulk density (5.5 g/cm 3 ) with the surface materials (3 g/cm 3 ) to suggest that denser material must be buried in the core.

Magnetic field and magnetosphere

We can find additional clues about Earth’s interior from its magnetic field. Our planet behaves in some ways as if a giant bar magnet were inside it, aligned approximately with the rotational poles of Earth. This magnetic field is generated by moving material in Earth’s liquid metallic core. As the liquid metal inside Earth circulates, it sets up a circulating electric current. When many charged particles are moving together like that—in the laboratory or on the scale of an entire planet—they produce a magnetic field.

Earth’s magnetic field extends into surrounding space. When a charged particle encounters a magnetic field in space, it becomes trapped in the magnetic zone. Above Earth’s atmosphere, our field is able to trap small quantities of electrons and other atomic particles. This region, called the magnetosphere    , is defined as the zone within which Earth’s magnetic field dominates over the weak interplanetary magnetic field that extends outward from the Sun ( [link] ).

Earth’s magnetosphere.

Illustration of the Earth’s Magnetosphere. At left an arrow points leftward indicating the direction of the Sun. The Solar wind is drawn as numerous particles coming from the left. Slightly off-center to the right the Earth is shown, with an arrow for the north pole pointing upward, and one pointing down for the south pole. To the left and right of the Earth are two nested purple crescents with their points touching the poles of the Earth. These areas are labeled as the Van Allen belts. Outside the Van Allen belts the lines of the magnetic field are drawn in white. On the left side of the Earth (facing the Sun in this diagram), the lines originate at the north pole and curve out away from the surface then curve back to end at the south pole. Four of these curves are shown, each extending further out into space than the one proceeding it. On the right side of the Earth (facing away from the Sun), the magnetic field lines are also drawn, but have very different shapes than those on the left. The innermost line on the right looks very similar to the innermost line of the left. But each successive line moves further and further out into space before returning to the poles. Thus the magnetic field is much more elongated in shape on the side of the Earth facing away from the Sun.
A cross-sectional view of our magnetosphere (or zone of magnetic influence), as revealed by numerous spacecraft missions. Note how the wind of charged particles from the Sun “blows” the magnetic field outward like a wind sock.

Where do the charged particles trapped in our magnetosphere come from? They flow outward from the hot surface of the Sun; this is called the solar wind . It not only provides particles for Earth’s magnetic field to trap, it also stretches our field in the direction pointing away from the Sun. Typically, Earth’s magnetosphere extends about 60,000 kilometers, or 10 Earth radii, in the direction of the Sun. But, in the direction away from the Sun, the magnetic field can reach as far as the orbit of the Moon, and sometimes farther.

The magnetosphere was discovered in 1958 by instruments on the first US Earth satellite, Explorer 1 , which recorded the ions (charged particles) trapped in its inner part. The regions of high-energy ions in the magnetosphere are often called the Van Allen belts in recognition of the University of Iowa professor who built the scientific instrumentation for Explorer 1 . Since 1958, hundreds of spacecraft have explored various regions of the magnetosphere. You can read more about its interaction with the Sun in a later chapter.

Key concepts and summary

Earth is the prototype terrestrial planet. Its interior composition and structure are probed using seismic waves. Such studies reveal that Earth has a metal core and a silicate mantle. The outer layer, or crust, consists primarily of oceanic basalt and continental granite. A global magnetic field, generated in the core, produces Earth’s magnetosphere, which can trap charged atomic particles.

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Source:  OpenStax, Astronomy. OpenStax CNX. Apr 12, 2017 Download for free at http://cnx.org/content/col11992/1.13
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