Interior Of The Earth

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Interior of the earth- composition and physical conditions

 

Core, mantle, and crust are divisions based on composition. The crust makes up less than 1 percent of Earth by mass, consisting of oceanic crust and continental crust is often more felsic rock. The mantle is hot and represents about 68 percent of Earth’s mass. Finally, the core is mostly iron Metal. The core makes up about 31% of the Earth. Lithosphere and asthenosphere are divisions based on mechanical properties. The lithosphere is composed of both the crust and the portion of the upper mantle that behaves as a brittle, rigid solid. The asthenosphere is partially molten upper mantle material that behaves plastically and can flow.

Crust and Lithosphere

Earth’s outer surface is its crust; a cold, thin, brittle outer shell made of rock. The crust is very thin, relative to the radius of the planet. There are two very different types of crust, each with its own distinctive physical and chemical properties.Oceanic crust is composed of magma that erupts on the seafloor to create basalt lava flows or cools deeper down to create the intrusive igneous rock gabbro. Sediments, primarily muds and the shells of tiny sea creatures, coat the seafloor. Sediment is thickest near the shore where it comes off the continents in rivers and on wind currents.Continental crust is made up of many different types of igneous, metamorphic, and Sedimentary Rocks. The Average composition is granite, which is much less dense than the mafic Igneous Rocks of the oceanic crust. Because it is thick and has relatively low density, continental crust rises higher on the mantle than oceanic crust, which sinks into the mantle to form basins. When filled with water, these basins form the planet’s Oceans.The lithosphere is the outermost mechanical layer, which behaves as a brittle, rigid solid. The lithosphere is about 100 kilometers thick. The definition of the lithosphere is based on how earth materials behave, so it includes the crust and the uppermost mantle, which are both brittle. Since it is rigid and brittle, when stresses act on the lithosphere, it breaks. This is what we experience as an earthquake.

 

The Mantle

Our knowledge of the upper mantle, including the tectonic plates, is derived from analyses of earthquake waves; heat flow, magnetic, and gravity studies; and laboratory experiments on rocks and Minerals. Between 100 and 200 kilometers below the Earth’s surface, the temperature of the rock is near the melting point; molten rock erupted by some Volcanoes-2/”>Volcanoes originates in this region of the mantle. This zone of extremely yielding rock has a slightly lower velocity of earthquake waves and is presumed to be the layer on which the tectonic plates ride. Below this low-velocity zone is a transition zone in the upper mantle; it contains two discontinuities caused by changes from less dense to more dense minerals. The chemical composition and crystal forms of these minerals have been identified by laboratory experiments at high pressure and temperature. The lower mantle, below the transition zone, is made up of relatively simple iron and magnesium silicate minerals, which change gradually with depth to very dense forms. Going from mantle to core, there is a marked decrease (about 30 percent) in earthquake wave velocity and a marked increase (about 30 percent) in density.

 

Core

Earth’s core is the very hot, very dense center of our planet. The ball-shaped core lies beneath the cool, brittle crust and the mostly-solid mantle. The core is found about 2,900 kilometers (1,802 miles) below Earth’s surface, and has a radius of about 3,485 kilometers (2,165 miles).

Planet Earth is older than the core. When Earth was formed about 4.5 billion years ago, it was a uniform ball of hot rock. Radioactive decay and leftover heat from planetary formation (the collision, accretion, and compression of space rocks) caused the ball to get even hotter. Eventually, after about 500 million years, our young planet’s temperature heated to the melting point of iron—about 1,538° Celsius (2,800° Fahrenheit). This pivotal moment in Earth’s history is called the iron catastrophe.

The iron catastrophe allowed greater, more rapid movement of Earth’s molten, rocky material. Relatively buoyant material, such as silicates, water, and even air, stayed close to the planet’s exterior. These materials became the early mantle and crust. Droplets of iron, nickel, and other heavy metals gravitated to the center of Earth, becoming the early core. This important process is called planetary differentiation.  

Earth’s core is the furnace of the geothermal gradient. The geothermal gradient measures the increase of heat and pressure in Earth’s interior. The geothermal gradient is about 25° Celsius per kilometer of depth (1° Fahrenheit per 70 feet). The primary contributors to heat in the core are the decay of radioactive Elements, leftover heat from planetary formation, and heat released as the liquid outer core solidifies near its boundary with the inner core.

Unlike the mineral-rich crust and mantle, the core is made almost entirely of metal—specifically, iron and nickel. The shorthand used for the core’s iron-nickel alloys is simply the elements’ chemical symbols—NiFe.    Elements that dissolve in iron, called siderophiles, are also found in the core. Because these elements are found much more rarely on Earth’s crust, many siderophiles are classified as “precious metals.” Siderophile elements include gold, platinum, and cobalt.

Another key element in Earth’s core is sulfur—in fact 90% of the sulfur on Earth is found in the core. The confirmed discovery of such vast amounts of sulfur helped explain a geologic mystery: If the core was primarily NiFe, why wasn’t it heavier? Geoscientists speculated that lighter elements such as Oxygen or silicon might have been present. The abundance of sulfur, another relatively Light element, explained the conundrum.

Outer Core   

The outer core, about 2,200 kilometers (1,367 miles) thick, is mostly composed of liquid iron and nickel. The NiFe Alloy of the outer core is very hot, between 4,500° and 5,500° Celsius (8,132° and 9,932° Fahrenheit).

Inner Core   

The inner core is a hot, dense ball of (mostly) iron. It has a radius of about 1,220 kilometers (758 miles). Temperature in the inner core is about 5,200° Celsius (9,392° Fahrenheit). The pressure is nearly 3.6 million Atmosphere (atm).


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The Earth’s interior is divided into four main layers: the crust, the mantle, the outer core, and the inner core. The crust is the outermost layer and is made up of solid rock. The mantle is the next layer down and is made up of solid rock and liquid rock. The outer core is the next layer down and is made up of liquid iron. The inner core is the innermost layer and is made up of solid iron.

The crust is the thinnest layer of the Earth’s interior, with an average thickness of about 10 kilometers. It is made up of two types of rock: continental crust and oceanic crust. Continental crust is thicker and less dense than oceanic crust. It is made up of rocks that are rich in silicon and aluminum. Oceanic crust is thinner and denser than continental crust. It is made up of rocks that are rich in magnesium and iron.

The mantle is the largest layer of the Earth’s interior, with an average thickness of about 2,900 kilometers. It is made up of solid rock and liquid rock. The solid rock in the mantle is made up of minerals that are rich in magnesium and iron. The liquid rock in the mantle is made up of molten rock that is rich in silicon and oxygen.

The outer core is the next layer down and is made up of liquid iron. It has an average thickness of about 2,200 kilometers. The outer core is very hot, with temperatures reaching up to 6,000 degrees Celsius. The heat in the outer core comes from the decay of radioactive elements in the mantle. The movement of the liquid iron in the outer core generates the Earth’s Magnetic Field.

The inner core is the innermost layer and is made up of solid iron. It has an average radius of about 1,220 kilometers. The inner core is very hot, with temperatures reaching up to 6,000 degrees Celsius. The pressure in the inner core is very high, which causes the iron to solidify. The inner core is thought to be responsible for the Earth’s magnetic field.

The Earth’s interior is a dynamic and ever-changing place. The movement of the mantle causes the plates of the Earth’s crust to move. This movement is responsible for Earthquakes and volcanoes. The heat in the outer core generates the Earth’s magnetic field. The Earth’s magnetic field protects us from harmful radiation from the sun.

The Earth’s interior is a fascinating and important part of our planet. It is responsible for many of the things that make Earth a unique and habitable planet.

The Solar System

The Universe

The Earth

Life on Earth

Sure, here are some multiple choice questions without mentioning the topic “Interior of the Earth”:

  1. The Earth is made up of four main layers: the crust, the mantle, the outer core, and the inner core. Which of the following layers is the thinnest?
    (A) Crust
    (B) Mantle
    (C) Outer core
    (D) Inner core

  2. The Earth’s crust is made up of two types of rock: continental crust and oceanic crust. Continental crust is thicker and less dense than oceanic crust. Which of the following statements is true about continental crust?
    (A) It is made up of mostly basalt.
    (B) It is made up of mostly granite.
    (C) It is found on the continents.
    (D) It is found in the oceans.

  3. The Earth’s mantle is made up of solid rock. The mantle is divided into two parts: the upper mantle and the lower mantle. The upper mantle is less dense than the lower mantle. Which of the following statements is true about the Earth’s mantle?
    (A) It is made up of mostly iron and nickel.
    (B) It is made up of mostly silicate minerals.
    (C) It is solid rock.
    (D) It is liquid rock.

  4. The Earth’s outer core is made up of liquid iron and nickel. The outer core is responsible for the Earth’s magnetic field. Which of the following statements is true about the Earth’s outer core?
    (A) It is solid rock.
    (B) It is liquid rock.
    (C) It is made up of mostly iron and nickel.
    (D) It is responsible for the Earth’s magnetic field.

  5. The Earth’s inner core is made up of solid iron and nickel. The inner core is the hottest part of the Earth. Which of the following statements is true about the Earth’s inner core?
    (A) It is solid rock.
    (B) It is liquid rock.
    (C) It is made up of mostly iron and nickel.
    (D) It is the hottest part of the Earth.

  6. The Earth’s atmosphere is made up of gases that surround the Earth. The atmosphere protects the Earth from harmful radiation from the sun. Which of the following gases is the most abundant in the Earth’s atmosphere?
    (A) Nitrogen
    (B) Oxygen
    (C) Carbon dioxide
    (D) Water vapor

  7. The Earth’s hydrosphere is made up of water that covers the Earth’s surface. The hydrosphere includes oceans, lakes, rivers, and Glaciers. Which of the following statements is true about the Earth’s hydrosphere?
    (A) It is made up of mostly water.
    (B) It is found on the Earth’s surface.
    (C) It is the largest reservoir of water on Earth.
    (D) All of the above.

  8. The Earth’s Biosphere is made up of all the living things on Earth. The biosphere includes plants, animals, and Microorganisms. Which of the following statements is true about the Earth’s biosphere?
    (A) It is made up of all the living things on Earth.
    (B) It is found on the Earth’s surface.
    (C) It is the only place on Earth where life exists.
    (D) All of the above.

  9. The Earth’s geosphere is made up of the solid Earth, including the crust, mantle, and core. The geosphere is responsible for the Earth’s shape and structure. Which of the following statements is true about the Earth’s geosphere?
    (A) It is made up of the solid Earth.
    (B) It includes the crust, mantle, and core.
    (C) It is responsible for the Earth’s shape and structure.
    (D) All of the above.

  10. The Earth’s atmosphere, hydrosphere, biosphere, and geosphere are all important parts of the Earth’s system. Which of the following statements is true about the Earth’s system?
    (A) It is made up of the atmosphere, hydrosphere, biosphere, and geosphere.
    (B) The components of the Earth’s system interact with each other.
    (C) The Earth’s system is constantly changing.
    (D) All of the above.

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