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A meteorite is a solid piece of deb
A meteorite is a solid piece of debris, from such sources as asteroids or comets, that originates in outer space and survives its impact with the Earth's surface. It is called meteoroid before its impact. A meteorite's size can range from small to extremely large. When a meteoroid enters the atmosphere, friction, pressure, and chemical interactions with the atmospheric gases cause it to heat up and radiate that energy, thus forming a fireball, also known as a meteor or shooting/falling star. A bolide is either an extraterrestrial body that collides with the Earth, or an exceptionally bright, fireball-like meteor regardless of whether it ultimately impacts the surface.
More generally, a meteorite on the surface of any celestial body is a natural object that has come from outer space. Meteorites have been found on the moon and Mars. Meteorites that are recovered after being observed as they transit the atmosphere or impact the Earth are called meteorite fall. All other meteorites are known as finds. As of February 2010, there are approximately 1,086 witnessed falls having specimens in the world's collections. There are more than 38,660 well-documented meteorite finds.
Meteorites have traditionally been divided into three broad categories: stony meteorites are rocks, mainly composed of silicate minerals; iron meteorites that are largely composed of metallic iron-nickel; and, stony-iron meteorites that contain large amounts of both metallic and rocky material. Modern classification schemes divide meteorites into groups according to their structure, chemical and isotopic composition and mineralogy. Meteorites smaller than 2mm are classified as micrometeorites
Most meteorites are stony meteorites, classed as chondrites and achondrites. Only about 6% of meteorites are iron meteorites or a blend of rock and metal, the stony-iron meteorites. Modern classification of meteorites is complex. The review paper of Krot et al summarizes modern meteorite taxonomy.
About 86% of the meteorites that fall on Earth are chondrites, which are named for the small, round particles they contain. These particles, or chondrules, are composed mostly of silicate minerals that appear to have been melted while they were free-floating objects in space. Certain types of chondrites also contain small amounts of organic matter, including amino acids, and presolar grains. Chondrites are typically about 4.55 billion years old and are thought to represent material from the asteroid belt that never coalesced into large bodies. Like comets, chondritic asteroids are some of the oldest and most primitive materials in the solar system. Chondrites are often considered to be "the building blocks of the planets."
About 8% of the meteorites that fall on Earth are achondrites ,some of which are similar to terrestrial igneous rocks. Most achondrites are also ancient rocks, and are thought to represent crustal material of differentiated planetesimals. One large family of achondrites may have originated on the parent body of the Vesta Family, although this claim is disputed. Others derive from unidentified asteroids. Two small groups of achondrites are special, as they are younger and do not appear to come from the asteroid belt. One of these groups comes from the Moon, and includes rocks similar to those brought back to Earth by Apollo and Luna programs. The other group is almost certainly from Mars and are the only materials from other planets ever recovered by humans.
About 5% of meteorites that have been seen to fall are iron meteorites composed of iron-nickel alloys, such as kamacite and/or taenite. Most iron meteorites are thought to come from the cores of planetesimals that were once molten. As on Earth, the denser metal separated from silicate material and sank toward the center of the planetesimal, forming its core. After the planetesimal solidified, it broke up in a collision with another planetesimal. Due to the low abundance of iron meteorites in collection areas such as Antarctica, where most of the meteoric material that has fallen can be recovered, it is possible that the percentage of iron-meteorite falls is lower than 5%. This would be explained by a recovery bias; laypeople are more likely to notice and recover solid masses of metal than most other meteorite types. The abundance of iron meteorites relative to total Antarctic finds is 0.4% A cut and polished slice of the Esquel meteorite, a stony-iron pallasite. Yellow-green olivine crystals are encased in the iron-nickel matrix.Stony-iron meteorites constitute the remaining 1%. They are a mixture of iron-nickel metal and silicate minerals. One type, called pallasites, is thought to have originated in the boundary zone above the core regions where iron meteorites originated. The other major type of stony-iron meteorites is the mesosiderites.
A meteorite is a body cosmic origin. It is called meteoroid before its impact. Meteorites are formed on the moon and mars. Более крупные тела называются астероидами. Особо яркие метеоры называют болидами.Meteorites divided into three categories: stony meteorites, iron meteorites and stony-iron meteorites. stony meteorites, classed as chondrites and achondrites. Stony-iron meteorites classed as pallasita and mesosiderites.
More generally, a meteorite on the surface of any celestial body is a natural object that has come from outer space. Meteorites have been found on the moon and Mars. Meteorites that are recovered after being observed as they transit the atmosphere or impact the Earth are called meteorite fall. All other meteorites are known as finds. As of February 2010, there are approximately 1,086 witnessed falls having specimens in the world's collections. There are more than 38,660 well-documented meteorite finds.
Meteorites have traditionally been divided into three broad categories: stony meteorites are rocks, mainly composed of silicate minerals; iron meteorites that are largely composed of metallic iron-nickel; and, stony-iron meteorites that contain large amounts of both metallic and rocky material. Modern classification schemes divide meteorites into groups according to their structure, chemical and isotopic composition and mineralogy. Meteorites smaller than 2mm are classified as micrometeorites
Most meteorites are stony meteorites, classed as chondrites and achondrites. Only about 6% of meteorites are iron meteorites or a blend of rock and metal, the stony-iron meteorites. Modern classification of meteorites is complex. The review paper of Krot et al summarizes modern meteorite taxonomy.
About 86% of the meteorites that fall on Earth are chondrites, which are named for the small, round particles they contain. These particles, or chondrules, are composed mostly of silicate minerals that appear to have been melted while they were free-floating objects in space. Certain types of chondrites also contain small amounts of organic matter, including amino acids, and presolar grains. Chondrites are typically about 4.55 billion years old and are thought to represent material from the asteroid belt that never coalesced into large bodies. Like comets, chondritic asteroids are some of the oldest and most primitive materials in the solar system. Chondrites are often considered to be "the building blocks of the planets."
About 8% of the meteorites that fall on Earth are achondrites ,some of which are similar to terrestrial igneous rocks. Most achondrites are also ancient rocks, and are thought to represent crustal material of differentiated planetesimals. One large family of achondrites may have originated on the parent body of the Vesta Family, although this claim is disputed. Others derive from unidentified asteroids. Two small groups of achondrites are special, as they are younger and do not appear to come from the asteroid belt. One of these groups comes from the Moon, and includes rocks similar to those brought back to Earth by Apollo and Luna programs. The other group is almost certainly from Mars and are the only materials from other planets ever recovered by humans.
About 5% of meteorites that have been seen to fall are iron meteorites composed of iron-nickel alloys, such as kamacite and/or taenite. Most iron meteorites are thought to come from the cores of planetesimals that were once molten. As on Earth, the denser metal separated from silicate material and sank toward the center of the planetesimal, forming its core. After the planetesimal solidified, it broke up in a collision with another planetesimal. Due to the low abundance of iron meteorites in collection areas such as Antarctica, where most of the meteoric material that has fallen can be recovered, it is possible that the percentage of iron-meteorite falls is lower than 5%. This would be explained by a recovery bias; laypeople are more likely to notice and recover solid masses of metal than most other meteorite types. The abundance of iron meteorites relative to total Antarctic finds is 0.4% A cut and polished slice of the Esquel meteorite, a stony-iron pallasite. Yellow-green olivine crystals are encased in the iron-nickel matrix.Stony-iron meteorites constitute the remaining 1%. They are a mixture of iron-nickel metal and silicate minerals. One type, called pallasites, is thought to have originated in the boundary zone above the core regions where iron meteorites originated. The other major type of stony-iron meteorites is the mesosiderites.
A meteorite is a body cosmic origin. It is called meteoroid before its impact. Meteorites are formed on the moon and mars. Более крупные тела называются астероидами. Особо яркие метеоры называют болидами.Meteorites divided into three categories: stony meteorites, iron meteorites and stony-iron meteorites. stony meteorites, classed as chondrites and achondrites. Stony-iron meteorites classed as pallasita and mesosiderites.
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Метеорит является сплошной кусок мусора, от таких источников, как астероидов или комет, что происходит в космическом пространстве и выживает его воздействия с поверхности земли. Это называется метеорных тел перед ее воздействия. Размер метеорита может варьироваться от небольших до очень крупных. Когда метеорных тел входит в атмосферу, трение, давление, и химических взаимодействий с атмосферными газами приводит к его нагреваться и излучать эту энергию, таким образом формируя огненный шар, также известный как Метеор или стрельба/падения звезды. Болид является внеземного тела, который сталкивается с землей, либо исключительно яркой, огненного шара как Метеор независимо от ли она в конечном итоге влияет на поверхности.В более общем метеорит на поверхности любого небесного тела является природный объект, который пришел из космоса. Метеориты были найдены на Луне и Марсе. Метеориты, которые восстанавливаются после соблюдается как они транзитом атмосферу или влияние земли являются падения называется метеорита. Все метеориты известны как находки. С февраля 2010 года существует примерно 1 086 свидетелем падает с образцами в мировых коллекций. Есть более чем 38,660 находки метеорита документально. Метеориты традиционно были разделены на три широкие категории: каменные метеориты являются породы, в основном из силикатных минералов; железные метеориты, которые в основном состоят из металлических железо никель; и железо каменные метеориты, которые содержат большое количество как металлических, так и скалистые материала. Современные классификационные схемы метеориты делят на группы в зависимости от их структуры, химического и изотопного состава и минералогии. Метеориты размером менее 2 мм, классифицируются как микрометеоритовБольшинство метеоритов являются каменные метеориты, классифицируется как хондритов и achondrites. Лишь около 6% метеоритов, железные метеориты или смесь рока и металла, железо каменные метеориты. Современная классификация метеоритов сложен. Обзор бумаги Крот и др обобщаются современные метеорита таксономии.Около 86% метеоритов, которые попадают на земле являются хондриты, которые называются для малых, круглые частицы, которые они содержат. Эти частицы, или хондр, состоят в основном из силикатных минералов, которые были твореное в то время как они были свободно плавающего объектов в пространстве. Определенные типы хондриты содержат также небольшое количество органического вещества, включая аминокислоты и presolar зерна. Хондриты, обычно около 4,55 миллиарда лет и относят материал из пояса астероидов, который никогда не сливаются в крупные тела. Как кометы астероиды chondritic являются одними из старейших и самых примитивных материалов в солнечной системе. Хондриты, часто считаются «строительные блоки планет.»Около 8% от метеоритов, которые падают на землю, achondrites, некоторые из которых похожи на земных изверженных пород. Большинство achondrites также древние камни и относят коры материал дифференцированного планетезималями. Один большой семье achondrites возможно возникла на теле родительской семье Веста, хотя это утверждение является спорным. Другие производные от неизвестных астероидов. Две небольшие группы achondrites являются специальными, поскольку они моложе и как представляется, не поступать из пояса астероидов. Одна из этих групп происходит от Луны и включает в себя пород аналогичны привез на землю Аполлона и Луна программами. Другая группа почти наверняка от Марса и когда-либо восстанавливаются только материалы с других планет людьми.Около 5% от метеоритов, которые были замечены падать, железные метеориты состоят из железо никелевых сплавов, например kamacite или taenite. Считается, что большинство железные метеориты приходят из ядер планетезималями, которые были когда-то расплавленный. Как на земле, более плотный металл отделен от силикатов и затонул к центру Планетезималь, образуя его ядро. После того, как Планетезималь затвердевает, он распался в столкновении с другой Планетезималь. Из-за низкой обилие железные метеориты в коллекции таких областях, как Антарктика, где можно восстановить большинство из метеоритного материала, который упал, вполне возможно, что доля железа метеорит падает ниже 5%. Это будет объяснено восстановления уклоном; миряне больше шансов заметить и восстановить твердые массы металла, чем большинство других типов метеоритов. Обилие железные метеориты по отношению к общей антарктической находки — 0,4% A вырезать и полированный срез Эскель метеорита, Палласит Стоуни железо. Желто зеленый оливин кристаллы помещены в матрице железо никелевые.Стоуни железные метеориты представляют собой оставшийся 1%. Они представляют собой смесь железо никелевые металл и силикатных минералов. Один тип, называемый pallasites, как полагают, возникла в пограничной зоне выше основных регионах, где возникла железные метеориты. Другой основной тип железо каменные метеориты это mesosiderites.Метеорит представляет тело космического происхождения. Это называется метеорных тел перед ее воздействия. Метеориты формируются на Луну и Марс. БОЛЕЕ КРУПНЫЕ ТЕЛА НАЗЫВАЮТСЯ АСТЕРОИДАМИ. ОСОБО ЯРКИЕ МЕТЕОРЫ НАЗЫВАЮТ БОЛИДАМИ.Метеориты делятся на три категории: каменные метеориты, железные метеориты и железо каменные метеориты. каменные метеориты, классифицируется как хондритов и achondrites. Стоуни железные метеориты классифицируются как pallasita и mesosiderites.
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A meteorite is a solid piece of debris, from such sources as asteroids or comets, that originates in outer space and survives its impact with the Earth's surface. It is called meteoroid before its impact. A meteorite's size can range from small to extremely large. When a meteoroid enters the atmosphere, friction, pressure, and chemical interactions with the atmospheric gases cause it to heat up and radiate that energy, thus forming a fireball, also known as a meteor or shooting/falling star. A bolide is either an extraterrestrial body that collides with the Earth, or an exceptionally bright, fireball-like meteor regardless of whether it ultimately impacts the surface.
More generally, a meteorite on the surface of any celestial body is a natural object that has come from outer space. Meteorites have been found on the moon and Mars. Meteorites that are recovered after being observed as they transit the atmosphere or impact the Earth are called meteorite fall. All other meteorites are known as finds. As of February 2010, there are approximately 1,086 witnessed falls having specimens in the world's collections. There are more than 38,660 well-documented meteorite finds.
Meteorites have traditionally been divided into three broad categories: stony meteorites are rocks, mainly composed of silicate minerals; iron meteorites that are largely composed of metallic iron-nickel; and, stony-iron meteorites that contain large amounts of both metallic and rocky material. Modern classification schemes divide meteorites into groups according to their structure, chemical and isotopic composition and mineralogy. Meteorites smaller than 2mm are classified as micrometeorites
Most meteorites are stony meteorites, classed as chondrites and achondrites. Only about 6% of meteorites are iron meteorites or a blend of rock and metal, the stony-iron meteorites. Modern classification of meteorites is complex. The review paper of Krot et al summarizes modern meteorite taxonomy.
About 86% of the meteorites that fall on Earth are chondrites, which are named for the small, round particles they contain. These particles, or chondrules, are composed mostly of silicate minerals that appear to have been melted while they were free-floating objects in space. Certain types of chondrites also contain small amounts of organic matter, including amino acids, and presolar grains. Chondrites are typically about 4.55 billion years old and are thought to represent material from the asteroid belt that never coalesced into large bodies. Like comets, chondritic asteroids are some of the oldest and most primitive materials in the solar system. Chondrites are often considered to be "the building blocks of the planets."
About 8% of the meteorites that fall on Earth are achondrites ,some of which are similar to terrestrial igneous rocks. Most achondrites are also ancient rocks, and are thought to represent crustal material of differentiated planetesimals. One large family of achondrites may have originated on the parent body of the Vesta Family, although this claim is disputed. Others derive from unidentified asteroids. Two small groups of achondrites are special, as they are younger and do not appear to come from the asteroid belt. One of these groups comes from the Moon, and includes rocks similar to those brought back to Earth by Apollo and Luna programs. The other group is almost certainly from Mars and are the only materials from other planets ever recovered by humans.
About 5% of meteorites that have been seen to fall are iron meteorites composed of iron-nickel alloys, such as kamacite and/or taenite. Most iron meteorites are thought to come from the cores of planetesimals that were once molten. As on Earth, the denser metal separated from silicate material and sank toward the center of the planetesimal, forming its core. After the planetesimal solidified, it broke up in a collision with another planetesimal. Due to the low abundance of iron meteorites in collection areas such as Antarctica, where most of the meteoric material that has fallen can be recovered, it is possible that the percentage of iron-meteorite falls is lower than 5%. This would be explained by a recovery bias; laypeople are more likely to notice and recover solid masses of metal than most other meteorite types. The abundance of iron meteorites relative to total Antarctic finds is 0.4% A cut and polished slice of the Esquel meteorite, a stony-iron pallasite. Yellow-green olivine crystals are encased in the iron-nickel matrix.Stony-iron meteorites constitute the remaining 1%. They are a mixture of iron-nickel metal and silicate minerals. One type, called pallasites, is thought to have originated in the boundary zone above the core regions where iron meteorites originated. The other major type of stony-iron meteorites is the mesosiderites.
A meteorite is a body cosmic origin. It is called meteoroid before its impact. Meteorites are formed on the moon and mars. Более крупные тела называются астероидами. Особо яркие метеоры называют болидами.Meteorites divided into three categories: stony meteorites, iron meteorites and stony-iron meteorites. stony meteorites, classed as chondrites and achondrites. Stony-iron meteorites classed as pallasita and mesosiderites.
More generally, a meteorite on the surface of any celestial body is a natural object that has come from outer space. Meteorites have been found on the moon and Mars. Meteorites that are recovered after being observed as they transit the atmosphere or impact the Earth are called meteorite fall. All other meteorites are known as finds. As of February 2010, there are approximately 1,086 witnessed falls having specimens in the world's collections. There are more than 38,660 well-documented meteorite finds.
Meteorites have traditionally been divided into three broad categories: stony meteorites are rocks, mainly composed of silicate minerals; iron meteorites that are largely composed of metallic iron-nickel; and, stony-iron meteorites that contain large amounts of both metallic and rocky material. Modern classification schemes divide meteorites into groups according to their structure, chemical and isotopic composition and mineralogy. Meteorites smaller than 2mm are classified as micrometeorites
Most meteorites are stony meteorites, classed as chondrites and achondrites. Only about 6% of meteorites are iron meteorites or a blend of rock and metal, the stony-iron meteorites. Modern classification of meteorites is complex. The review paper of Krot et al summarizes modern meteorite taxonomy.
About 86% of the meteorites that fall on Earth are chondrites, which are named for the small, round particles they contain. These particles, or chondrules, are composed mostly of silicate minerals that appear to have been melted while they were free-floating objects in space. Certain types of chondrites also contain small amounts of organic matter, including amino acids, and presolar grains. Chondrites are typically about 4.55 billion years old and are thought to represent material from the asteroid belt that never coalesced into large bodies. Like comets, chondritic asteroids are some of the oldest and most primitive materials in the solar system. Chondrites are often considered to be "the building blocks of the planets."
About 8% of the meteorites that fall on Earth are achondrites ,some of which are similar to terrestrial igneous rocks. Most achondrites are also ancient rocks, and are thought to represent crustal material of differentiated planetesimals. One large family of achondrites may have originated on the parent body of the Vesta Family, although this claim is disputed. Others derive from unidentified asteroids. Two small groups of achondrites are special, as they are younger and do not appear to come from the asteroid belt. One of these groups comes from the Moon, and includes rocks similar to those brought back to Earth by Apollo and Luna programs. The other group is almost certainly from Mars and are the only materials from other planets ever recovered by humans.
About 5% of meteorites that have been seen to fall are iron meteorites composed of iron-nickel alloys, such as kamacite and/or taenite. Most iron meteorites are thought to come from the cores of planetesimals that were once molten. As on Earth, the denser metal separated from silicate material and sank toward the center of the planetesimal, forming its core. After the planetesimal solidified, it broke up in a collision with another planetesimal. Due to the low abundance of iron meteorites in collection areas such as Antarctica, where most of the meteoric material that has fallen can be recovered, it is possible that the percentage of iron-meteorite falls is lower than 5%. This would be explained by a recovery bias; laypeople are more likely to notice and recover solid masses of metal than most other meteorite types. The abundance of iron meteorites relative to total Antarctic finds is 0.4% A cut and polished slice of the Esquel meteorite, a stony-iron pallasite. Yellow-green olivine crystals are encased in the iron-nickel matrix.Stony-iron meteorites constitute the remaining 1%. They are a mixture of iron-nickel metal and silicate minerals. One type, called pallasites, is thought to have originated in the boundary zone above the core regions where iron meteorites originated. The other major type of stony-iron meteorites is the mesosiderites.
A meteorite is a body cosmic origin. It is called meteoroid before its impact. Meteorites are formed on the moon and mars. Более крупные тела называются астероидами. Особо яркие метеоры называют болидами.Meteorites divided into three categories: stony meteorites, iron meteorites and stony-iron meteorites. stony meteorites, classed as chondrites and achondrites. Stony-iron meteorites classed as pallasita and mesosiderites.
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- Искать
- Guten Tag! Ich bin Heinz Schmidt. Ich bi
- Я была немного занята
- This need not, necessarily, be a fixed l
- нам нужен шкаф поменьше, так как комната
- Why
- я хочу жить в париже.Во-первых потому чт
- В записке было написано, что ее сестра с
- Только если ты будешь следовать этим пра
- lo spumante
- I was a bit busy
