One of the basis in a crystal structure is classification of solids; classification on the basis of the symmetry of crystal structures (geometrical properties) and physical features of them.
In symmetric, we describe shape and arrangement crystals (s.c, b.c.c, f.c.c, h.c.p ,etc.) and in physical classification, decribe physical properties (The scheme is based on the configuration of the valance electrons. for example covalent crystal, ion crystal, metallic crystal and etc.)
In solid-state physics, "basis" refers to a set of vectors that define a crystal's lattice structure and play a fundamental role in describing the periodicity of the crystal. By combining the basis vectors with translation vectors, we can reproduce the entire crystal lattice. This concept is crucial for understanding the electronic and vibrational properties of solids.
The basis in crystals is that it is uniquely arranged in a given solid or liquid.
Solid oxygen has a cubic crystalline structure. Solid nitrogen has a hexagonal crystalline structure.
Crystalline
A crystal is an example of a solid that has a regular repeating internal structure. In crystals, atoms or molecules are arranged in a precise, repeating pattern called a crystal lattice, which gives the crystal its characteristic shape and properties.
In solid-state physics, "basis" refers to a set of vectors that define a crystal's lattice structure and play a fundamental role in describing the periodicity of the crystal. By combining the basis vectors with translation vectors, we can reproduce the entire crystal lattice. This concept is crucial for understanding the electronic and vibrational properties of solids.
The basis in crystals is that it is uniquely arranged in a given solid or liquid.
Solid oxygen has a cubic crystalline structure. Solid nitrogen has a hexagonal crystalline structure.
Crystalline
A solid material with no crystal structure is called amorphous.
A crystal is an example of a solid that has a regular repeating internal structure. In crystals, atoms or molecules are arranged in a precise, repeating pattern called a crystal lattice, which gives the crystal its characteristic shape and properties.
When the atoms of a solid line up in a repeating pattern, they create a crystal lattice structure. This structure is responsible for the solid's characteristic shape and properties.
A solid without a defined crystal structure is amorphous.
A Crystal
this is called a crystal and this kind of structure is called a crystalline structure.
Hydrogen gas (H2) does not exhibit a crystal structure at standard conditions because it is a gas composed of diatomic molecules. In order for hydrogen to form a crystal structure, it needs to be in a solid form, such as solid hydrogen which exhibits different crystal structures depending on the temperature and pressure conditions.
The break follows the crystal structure.