Diamond is a rock made up of carbon atoms. Its structure is a repeating pattern of carbon atoms bonded together in a strong, three-dimensional network.
Diamond is classified as a non-metal because it is composed of carbon atoms arranged in a covalent network structure. Unlike metals, which have free electrons that can move throughout the material, diamond's carbon atoms are held together by strong covalent bonds, making it a non-metal.
In graphite, carbon atoms are arranged in a two-dimensional hexagonal lattice structure that forms layers. Each carbon atom is bonded to three other carbon atoms in a trigonal planar arrangement, creating a strong network of covalent bonds within each layer. The layers are held together by weak van der Waals forces, allowing them to easily slide past each other.
No, a diamond is not a molecule. It is a crystalline form of carbon where each carbon atom is bonded to four other carbon atoms in a repeating pattern. Each carbon-carbon bond is a covalent bond formed by sharing electrons.
Diamond has a crystalline structure known as face-centered cubic. It consists of carbon atoms arranged in a repeating pattern of tetrahedrons, with each carbon atom bonded to four other carbon atoms in a strong covalent bond network. This arrangement gives diamond its hardness and exceptional optical properties.
Diamond is a rock made up of carbon atoms. Its structure is a repeating pattern of carbon atoms bonded together in a strong, three-dimensional network.
C. Diamond is carbon in a pure form, a network of just carbon atoms
Diamond is classified as a non-metal because it is composed of carbon atoms arranged in a covalent network structure. Unlike metals, which have free electrons that can move throughout the material, diamond's carbon atoms are held together by strong covalent bonds, making it a non-metal.
Diamond is a type of covalent network solid due to its structure where each carbon atom is covalently bonded to four other carbon atoms in a three-dimensional lattice. This results in a very strong and rigid structure, making diamond one of the hardest naturally occurring substances.
A diamond is made up of carbon atoms arranged in a crystal lattice structure. Each carbon atom forms four covalent bonds with surrounding atoms, so there are a very large number of carbon atoms in a single diamond crystal, typically on the order of 10^23 atoms.
covalent bonds join all the atoms tightly together
A diamond is composed of carbon atoms. The crystal structure of a diamond contains carbon atoms bonded together in a repeating pattern, with each carbon atom forming four covalent bonds with surrounding carbon atoms. This means that a diamond contains a very large number of carbon atoms, typically on the order of 10^23 atoms.
A crystalline solid held together by covalent bonds
Nonmetal atom
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.
A diamond is made up of carbon atoms that are bonded together through strong covalent bonds known as sp3 hybridized bonds. These bonds involve the sharing of electrons between the carbon atoms in a three-dimensional network structure, giving diamond its exceptional hardness and transparency.
Diamond does not contain ionic bonds. It is composed of carbon atoms arranged in a tetrahedral lattice structure held together by strong covalent bonds. Each carbon atom shares electrons with four neighboring carbon atoms, creating a network of covalent bonds throughout the entire crystal structure.