The element is carbon, and the difference between these two allotropes is the crystal lattice formation that develops in each, based on where each is formed.
Carbon
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They are both formed of the element carbon.
No; think of carbon. This is a non-metallic element; it exists in the forms of diamond and graphite - both "shiny" substances.
Different is only the arrangement of atoms in diamond or graphite. Diamond and graphite are allotropic forms of carbon.
carbon is in both diamond and graphite along with countless other things like charcoal
Both are made up of pure carbon. These two are alotrophs
The element carbon can exist in a variety of forms, which include both graphite and diamond, as well as coal, and buckminsterfullerene.
Diamond and graphite are both forms of the element carbon. They are not compounds, because a compound by definition involves the combination of two or more different elements.
They are both formed of the element carbon.
Both diamonds and graphite are allotropes of carbon.
No; think of carbon. This is a non-metallic element; it exists in the forms of diamond and graphite - both "shiny" substances.
Yes, carbon.supplement. when an element exists in two or more forms, these forms are known as an allotrope. Carbon has three allotropes, graphite, diamond, and ordinary carbon.
The element that forms both coal and diamond is Carbon.
graphite in a pencil and diamond are from carbon .both are the allotrope of carbon
Only if the element forms allotropes, such as diamond and graphite, which are both allotropes of carbon but can be separated by density.
Different is only the arrangement of atoms in diamond or graphite. Diamond and graphite are allotropic forms of carbon.
carbon is in both diamond and graphite along with countless other things like charcoal
Both graphite and diamond are forms of carbon. As such, they are said to be alotropes of carbon. Both occur naturally. Both are mined for industrial purposes, though larger diamonds are sought and used for other things. Both are produced in the earth in geothermal processes. Both can be made artificially. Both are normally solids and highly stable. And they are both difficult to burn, even in an oxygen environment.