Mathematical proofs that a given structure is really a global minimum are notoriously hard. I think even the proof that a regular dense packing of spheres has maximal density was finished only some years ago.jd12345 said:Do we have a mathematical way of determining that which solid will take what crystalline structure yet?
A solid crystal structure is a regular, repeating arrangement of atoms or molecules in a solid material. This arrangement is known as a lattice and is responsible for the material's physical properties such as its density, strength, and melting point.
The formation of solid crystal structures is influenced by various factors such as the type and size of atoms or molecules, the temperature and pressure at which the material is formed, and the presence of impurities or defects in the lattice.
The arrangement of atoms or molecules in a solid crystal structure affects the material's properties in several ways. For example, a tightly packed lattice can result in a high density and strong material, while a loosely packed lattice can result in a lower density and weaker material.
Yes, scientists can manipulate the factors behind solid crystal structures to create materials with desired properties for specific purposes. This process is known as materials engineering and involves altering the composition, structure, and processing conditions of a material to achieve a specific functionality.
Yes, understanding the factors behind solid crystal structures has many real-world applications in fields such as materials science, engineering, and nanotechnology. This knowledge is used to design new materials with improved properties for various applications, including electronics, medicine, and energy storage.