the diamond (the hardest mineral known to man) is made up of a tetrohydral shaped atom structure which is formed into a complex lattice arrangement in the element. Graphite by contrast is one of the weakest minerals known to man, because its atoms are bonded by very weak bonds in fragile layers/sheets above and below one another, but each layer is not bonded to the rest.
The carbon-carbon bonds in both minerals are actually quite strong, but it is the application of those bonds that make the difference.
The carbon atoms are arranged differently in diamonds and graphite. They are both carbon, but their internal structure is different. They are allotropes of carbon.
Heating carbon in the presence of a catalyst to produce diamond crystals and then repeating the process without the catalyst to produce graphite would demonstrate that diamond and graphite are allotropes of carbon. The distinct physical and chemical properties of the resulting materials, along with their elemental composition, would further confirm their allotropy.
Three examples of allotropes of carbon are diamond, graphite, and graphene. Diamond consists of a three-dimensional network of carbon atoms, graphite has a layered structure, and graphene is a single layer of carbon atoms arranged in a hexagonal lattice.
The symbol for diamond is C (carbon), for silicon it is Si, and for graphite it is also C (carbon).
Both diamond and graphite are composed of carbon. However, the arrangement of carbon atoms in each structure is what gives them their distinct properties.
No, graphite and diamond are not elements. They are both forms of the element carbon. Carbon is the element, while graphite and diamond are allotropes, which are different forms of the same element with different physical and chemical properties.
Diamond, graphite, and buckyballs are all examples of allotropes of carbon. Allotropes are different forms of the same element that have distinct properties due to their unique atomic arrangements. Diamond is a hard, transparent crystal, graphite is a soft, black material used as a lubricant and in pencils, and buckyballs (fullerenes) are hollow carbon molecules with potential applications in nanotechnology.
Carbon.
Graphite and Diamonds are both allotropes of Carbon.
diamond graphite and graphene
Diamond, graphite and carbon black are the most common allotropes of CARBON
Both diamond and graphite are allotropes of carbon.
The three different allotropes of carbon are: -Diamond-Graphite-Buckminsterfullerene
Both diamond and graphite are allotropes of pure carbon.
No. Both graphite and diamond are allotropes of carbon. They have different molecular structures.
Three examples of allotropes of carbon are diamond, graphite, and graphene. Diamond consists of a three-dimensional network of carbon atoms, graphite has a layered structure, and graphene is a single layer of carbon atoms arranged in a hexagonal lattice.
Three allotropes of carbon are diamond, graphite, and amorphous carbon. Diamond has a rigid three-dimensional lattice structure, graphite has a layered structure with weak van der Waals forces between layers, and amorphous carbon lacks a specific crystal structure.
graphite, diamond, coal, coke, fullerene
Diamond,Graphite,Lonsdaleite, Buckminsterfullerene