Diamond
diamond
A dimond
Solid carbon (C) may be diamond, graphite, coal, carbon black etc.
No, it's impossible for diamonds to be in liquid state. Diamond is just an allotrope of carbon, that is, it is made of atoms of carbon arranged in crystal structure. Some different allotrpes of carbon are: graphite, nanotubes or fullerene. Any process of trying to liquify diamond will result in destryoing the crystal structure and the result would not bear any resemblance to diamonds whatsoever. Moreover, carbon doesn't melt, instead it vaporizes.
Carbon under pressure for millions of years will make diamonds.
It's a crystal lattice or lattice structure
carbon is a solid
Solid carbon (C) may be diamond, graphite, coal, carbon black etc.
because of the three dimensional carbon-carbon network
A crystal lattice.
No, it's impossible for diamonds to be in liquid state. Diamond is just an allotrope of carbon, that is, it is made of atoms of carbon arranged in crystal structure. Some different allotrpes of carbon are: graphite, nanotubes or fullerene. Any process of trying to liquify diamond will result in destryoing the crystal structure and the result would not bear any resemblance to diamonds whatsoever. Moreover, carbon doesn't melt, instead it vaporizes.
The standard state of carbon is a solid structure. Carbon reached their full solid structure when the state hits 298 K. Carbon is found three different but common forms such as diamond, graphite and amorphous.
The phrase "solid dimensional" has no meaning.
Carbon under pressure for millions of years will make diamonds.
solid shapes are 3-D
Anything 3 dimensional is solid.
A polygon is a 2-dimensional figure, a solid is 3-dimensional.
A contradiction. A solid is a 3-dimensional object, a face is 2-dimensional. Hence you cannot have a solid face.
When carbon dioxide is a gas, the molecules repel each other. When carbon dioxide is a solid the molecules do attract each other, and bond in a crystalline structure.