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Meteorites,9781554075157

Meteorites

by
ISBN13:

9781554075157

ISBN10:
1554075157
Format:
Hardcover
Pub. Date:
8/28/2009
Publisher(s):
Firefly Books Ltd
List Price: $24.95
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Summary

Meteorites are rocks from space that have fallen to the Earth's surface. Once considered bad omens, they are now recognized as giving us a unique insight into the nature of material that was present at the formation of the solar system. In Meteorites, leading experts from the Natural History Museum provide a compelling introduction to these mysterious objects.

Author Biography

Dr. Caroline Smith is the Curator of Meteorites in the Mineralogy Department of the Natural History Museum, Dr. Sara Russell is the Head of Meteoritics and Cosmic Mineralogy and Dr. Gretchen Benedix works as a researcher in the same department.

Table of Contents

What are Meteorites?p. 7
Where are Meteorites Found?p. 17
Impacts and Collisionsp. 29
Sources and Types of Meteoritesp. 43
Cometsp. 89
Summaryp. 105
Further Informationp. 108
Indexp. 109
Picture Creditsp. 111
Acknowledgementsp. 112
Table of Contents provided by Ingram. All Rights Reserved.

Excerpts

What Are Meteorites?

Meteorites are natural objects composed of stone, metal or a mixture of metal and stone that survive their fall from space to land on the Earth. Most meteorites originate from asteroids, a few come from the planet Mars or the moon, and some may even come from comets. Meteorites from asteroids are the oldest objects available for study, dating back to the very first stages of solar system formation, about 4,570 million years ago. The study of meteorites provides a window back in time, so we can learn about the processes that formed and shaped the solar system, and the planets, moons, asteroids and comets it contains, including our own Earth.

Meteorites are divided into three main types on the basis of their composition. Stone meteorites are composed mainly of silicate minerals similar to those found in rocks on Earth. Iron meteorites are composed of iron metal alloyed with nickel. Stony-iron meteorites, as their name suggests, are composed of a mixture of iron-nickel metal and silicate minerals. These different meteorite types are further described in chapter 4.

Meteors, meteoroids, fireballs and meteorites

About 40,000-60,000 t of extraterrestrial material falls on the Earth every year. Before entering Earth's atmosphere these fragments are known as meteoroids, and individual pieces can range in size from tiny, microscopic grains of dust to large bodies, many metres in diameter. The vast majority of the material that lands on Earth is in the form of tiny dust grains, usually less than 1 mm (1/25 in) in size, known as cosmic dust, micrometeorites or interplanetary dust particles (IDPs). Because these objects are so small, they radiate away the frictional heating produced as they pass through the atmosphere faster than they melt, and thus survive intact to land on Earth.

You may have been lucky enough to have seen a meteor or 'shooting star'. These streaks of light are produced by larger objects, perhaps the size of a small pebble. The effects of frictional heating as such objects pass through Earth's atmosphere are great enough to melt and vaporize the material, producing a very rapid, bright streak in the night sky. At some times during the year many meteors can be observed over a period of a few days. These 'meteor showers' are related to the orbits of known comets and occur at well-defined times during the year (see chapter 5). Meteors do not result in meteorites. It is extremely rare for material from a meteor to be recovered on Earth.

If still larger fragments (many centimetres or even metres in size) enter Earth's atmosphere they can produce spectacular light and sound effects as they fall. As they pass through the Earth's atmosphere these are called fireballs. Meteorites may land on Earth as a result of a large meteoroid entering the Earth's atmosphere. A meteoroid travels in space at its cosmic velocity, about 30 km/s (67,500 mph). When it reaches the Earth's atmosphere it is slowed down by friction and these frictional forces also act on its outermost surface, heating it to melting temperature.

Only the outermost surface of the meteoroid melts and the resulting droplets of molten material are carried away as the meteoroid speeds through the atmosphere. (This is unlike meteors, where the entire object is vaporized and destroyed.) The rapid speed of the meteoroid as it enters the atmosphere also generates shock waves (sonic booms), which are often heard as explosions. As the meteoroid is further slowed down by the atmosphere it begins to cool rapidly and its molten surface forms a glassy coating called the fusion crust. Finally, it falls to the ground under the influence of gravity and is now termed a meteorite.

Sometimes one side of the meteorite may be curved or even conical in shape. This is the 'leading edge' of the meteorite, the side that pointed in the direction the meteoroid travelled during its passage through the atmosphere. If the meteorite has tumbled during its flight it will have a more irregular shape, although it should still retain rounded edges. Note that only the outermost surface of the meteoroid melts, while the interior remains cold and unchanged. Meteorites are almost always cold when they land. The very few reports of meteorites that have been recovered almost immediately after landing state that they are cold or slightly warm at most.

Meteorites fall more or less randomly over the Earth's surface and a number of studies have been carried out to estimate how many meteorites land on Earth every year. Some studies use cameras to image the night sky and record the number of observed fireballs, while other studies use the number of meteorites found in desert regions. Estimates indicate approximately 5,000 to 17,000 meteorites larger than 100 g (3 1/2 oz) -- about the size of a golf ball -- fall on Earth every year. However, it is important to remember that 70% of the Earth's surface is covered by water and any meteorites landing in the oceans are unlikely ever to be recovered. Similarly, many parts of the world remain uninhabited or only have sparsely distributed populations, so any meteorites landing in these areas are unlikely to be seen by anyone.

Every year only a handful of meteorites are witnessed to fall and are then recovered -- these are known as 'fall' meteorites. In 2007, for example, there were seven authenticated 'fall' meteorites reported.

In some places, however, meteorites can be preserved or concentrated by natural processes. Most meteorites contain some proportion of metal, and the arid conditions found in the hot and cold deserts help to preserve them by slowing down the weathering and rusting that destroys the meteorites. Hot and cold deserts have provided extremely fertile meteorite hunting grounds, with tens of thousands of meteorites recovered so far. Meteorites that are found after they fell, either by chance or during dedicated collecting trips, are termed 'find' meteorites. Meteorite falls and finds are discussed further in chapter 2.

The study of meteorites -- fireballs and thunderstones

Meteors, fireballs and meteorite falls have been observed and recorded since ancient times. Chinese astronomers recorded meteor showers around 700 BC, and objects including daggers and jewellery made from meteoritic iron have been recovered from Egyptian pyramids, including the famous tomb of Tutankhamen. In 1928, archaeologists excavating a prehistoric Native American settlement near the town of Winona in northern Arizona excavated a 24-kg (53-lb) meteorite that had been carefully buried in a purpose-built crypt, or 'cist'. The archaeological setting suggests that the builders of the settlement treated the meteorite as an important object. However, the Sinagua tribe were only in the area for around 200 years from the eleventh century, and therefore the meteorite is unlikely to have been a witnessed fall.

The oldest meteorite seen to fall, and which is still preserved, is the Nogata meteorite that fell in the garden of the Suga Jinja Shinto shrine in Japan, over 1,100 years ago. Realizing the importance of the object, the shrine priests preserved it in a box as a special treasure. Although no written records exist, the story of the fall was passed down through the generations. In 1922, the head priest contacted a local geologist to ask his opinion on the stone and the geologist declared that it was indeed a meteorite. Then, in 1979, analyzes on a small piece of the stone confirmed this.

The first meteorite fall for which written records exist is the Ensisheim meteorite, which fell on the village of Ensisheim (now in the Alsace region of France) in 1492. A large fireball was observed and, after a large explosion, which caused much fright and excitement amongst the local people, a 127-kg (280-lb) stone fell on Ensisheim. This event was deemed so unusual and important it was recorded at the time in an engraving and was reported to the Emperor Maximillian, who ordered that the stone be preserved in the village church. The stone can still be seen in Ensisheim although it



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