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‭Allotropes of carbon:Diamond,Graphite,and Fullerene‬
‭ llotropes of carbon are forms of carbon that have different structures‬
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‭and properties
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‬
‭ iamond is a form of carbon where each carbon atom is bonded to‬
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‭four other carbon atoms in a tetrahedral structure
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For example, a‬
‭diamond can cut through steel like butter due to its hardness
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Each carbon atom is bonded to three‬
‭other carbon atoms, leaving one electron free to move around
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In fact,‬
‭graphite is often used as a lubricant
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It was discovered in 1985 by Harry Kroto, Richard‬
‭Smalley, and Robert Curl, who were awarded the Nobel Prize in‬
‭Chemistry for their discovery
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They have unique‬
‭electrical and mechanical properties, making them useful in a variety‬
‭of applications, such as medical imaging and drug delivery
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The density of a substance is calculated as its‬
‭mass divided by its volume
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51 g/cm³,‬
‭while graphite has a density of 2
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This means that diamond‬
‭is approximately 1
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‬

‭ ere's the calculation for diamond: Density = mass/volume Diamond‬
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‭density = 10 g (mass of a 1 cm³ sample of diamond) / 2
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51‬
‭g/cm³‬
‭ nd for graphite: Graphite density = 8 g (mass of a 1 cm³ sample of‬
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‭graphite) / 3
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26 g/cm³‬
‭ ere's a quote from Richard Smalley, one of the discoverers of‬
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‭fullerene: "Carbon is the most extraordinary element
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"‬
‭ n anecdote: Did you know that graphite was used in the first nuclear‬
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‭reactors to control the nuclear chain reaction? This is because‬
‭graphite is a good neutron moderator, meaning it can slow down‬
‭neutrons and increase their chances of causing a nuclear reaction
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Diamond‬
‭is hard and thermally conductive, graphite is soft and slippery, and‬
‭fullerene has unique electrical and mechanical properties
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‬
‭ ere's a code sample to calculate the density of diamond and‬
H
‭graphite:‬
‭ Diamond density calculation‬
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mass_diamond = 10 # mass of a 1 cm³ sample of‬
‭
diamond‬
‭
volume_diamond = 2
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53 # volume of a 1 cm³ sample‬
‭
of graphite‬
‭
density_graphite = mass_graphite / volume_graphite‬
‭
print("Graphite density:", density_graphite,‬
‭
"g/cm³")‬
‭
‭ nd here's a hand-drawn plot comparing the density of diamond and‬
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‭graphite:‬

‭Bolded key points:‬
‭ llotropes of carbon have different structures and properties
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‬
‭Graphite is soft and slippery
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‬
‭Allotropes of carbon are used in a variety of applications, such‬
‭as cutting tools, lubricants, and medical imaging
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56 times denser than graphite

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