A crystal
I have no idea, I was actually looking for the answer. 3 dimensional
The rigidity of its structure.
Network solids are organized in a crystalline structure at the molecular level, causing brittleness (inflexability). Ductily is usually associated with metallic bonding where electrons are freely shared among particles.
Most solids do not have an orderly arrangement of particles: these are non-crystalline solids.
In a solid, the particles are packed tightly together. They do not have a lot of room for motion. These particles are arranged in a regular, usually repeating pattern.
Crystalline solids have particles arranged in a lattice structure. This regular and repeating pattern of particles gives crystalline solids their well-defined shape and distinct properties.
Solids in which atoms are arranged in a definite and repeating pattern are called crystalline solids. In these solids, the atoms are arranged in a highly ordered structure, forming a crystal lattice. This arrangement gives crystalline solids their unique properties, such as cleavage and anisotropy.
Regularly (even and uniform) and close together.
Particles in a fixed arrangement are called a crystal lattice. This occurs in crystalline solids where the particles are arranged in a repeating pattern, creating a three-dimensional structure with long-range order. This arrangement gives crystals their characteristic geometric shapes and properties.
Amorphous solids are those in which the particles are not arranged in a specific pattern. This lack of a regular geometric arrangement gives amorphous solids unique properties compared to crystalline solids, which have a well-defined structure. Examples of amorphous solids include glass and certain plastics.
It's a crystal lattice or lattice structure
Crystals are solids made up of particles arranged in a repeating geometric pattern. This regular arrangement gives crystals their characteristic shape and structure.
Solids are characterized by vibrational motion of their particles arranged in a fixed and organized structure. The particles of a solid are closely packed together and vibrate about fixed positions, giving solids their shape and volume.
Randomly, without an ordered internal structure.
A lattice of atoms forms the structure of crystalline solids, like metals and minerals, where atoms are arranged in a repeating, organized pattern. This arrangement gives materials their unique properties, such as strength and conductivity.
Amorphous
Crystalline Solids are when the particles form a regular repeating pattern. Amorphous solids have particles that are not arranged in a regular pattern.