No, diamond, an allotrope of carbon, does not have a metallic bond. Carbon, which is the element from which diamond is formed, is a nonmetal.
The bond in Si normally described as covalent. Its structure is similar to that of diamond.
Carbon (diamond) is much harder and stronger
Damond is covalently bonded, a giant molecule
diamond n iodine have high melting points as they are both ionic compounds
No, diamond, an allotrope of carbon, does not have a metallic bond. Carbon, which is the element from which diamond is formed, is a nonmetal.
covalent bond
Rosinaid bond
The bond in Si normally described as covalent. Its structure is similar to that of diamond.
Carbon (diamond) is much harder and stronger
Yes, it can bond with other cabons . For example, a diamond, graphite (in pencils) and charcoal.
Damond is covalently bonded, a giant molecule
diamond n iodine have high melting points as they are both ionic compounds
Carbon-carbon single bonds are the only kind existing in diamond, except at surfaces.
I'd think it is diamond (tetrahedral C4)
According to Wikipedia:"A diamond is a transparent crystal of tetrahedrally-bonded carbon atoms in a covalent network lattice that crystallizes into the diamond lattice which is a variation of the face centered cubic structure."
If a single bond from each is considered, hydrogen bond < covalent bond < ionic bond But when a structure of a compound is considered, this may be different. Though diamond has only covalent bonds, it is among the substances with highest melting points.