ceramics are non metallic and also inorganic
Diamonds and graphite are both allotropes of carbon.
It takes millions to billions of years for diamonds to naturally transform into graphite.
The differences in the way diamonds form compared to graphite are primarily due to the arrangement of carbon atoms. In diamonds, carbon atoms are arranged in a rigid, three-dimensional structure, while in graphite, carbon atoms are arranged in layers that can easily slide past each other. This difference in structure leads to the distinct physical properties of diamonds and graphite.
To transmute graphite into diamonds, extreme pressure and heat are required. This process occurs deep within the Earth's mantle, where temperatures can reach over 1,000 degrees Celsius and pressures are intense. This transforms the carbon atoms in graphite into the crystal structure of diamonds.
Both diamonds and graphite are made up of carbon atoms. The difference lies in how the carbon atoms are arranged structurally, with diamonds having a rigid, three-dimensional crystal lattice while graphite has a layered structure.
No, diamonds and graphite are not polymorphs of silicon. Diamonds are a polymorph of carbon, while graphite is also a polymorph of carbon. Silicon does not form diamonds or graphite as polymorphs.
No. They are actually a type of graphite. Diamonds are made of carbon.
Diamonds and graphite are both allotropes of carbon.
It takes millions to billions of years for diamonds to naturally transform into graphite.
Graphite and diamonds
carbon
Graphite and Diamonds are both allotropes of Carbon.
Carbon, (C).
Both diamond and graphite are allotropes of pure carbon.
No. Both graphite and diamond are allotropes of carbon. They have different molecular structures.
Diamonds, coke, coal, graphite, fullerenes
Graphite is carbon. Carbon is ordinarily classified as a nonmetal but has some metallic properties and is occasionally classified as a metalloid.