Glass is atoms randomly arranged.
As kinetically frozen forms of liquid, glasses are characterized by a complete lack of long-range crystalline order and are the most structurally disordered types of solid known. glasses are frozen-in non-equilibrium systems. Non-equilibrium systems cannot be described in the framework of classical thermodynamics
In English, the bonds of glass are in small patterns, that occur numerous times. With numerous patterns it makes the bonds weak and easier to break, hence glass is brittle. Unlike other bonds.
Most solids do not have an orderly arrangement of particles: these are non-crystalline solids.
At its melting points the particles of a substance become looser and can move more freely. There is no order unlike a solids particles, however there isn't complete freedom to move everywhere unlike gases particles.
Electrons are the particles that move around the nucleus in constant and random motion.
In a solid the particles are packed tightly together in a more raged formation . in a liquid the particles move passing each other in a gas the particles move freely in the space they have
A crystal
amorphous solids
Amorphous solids can have a random arrangement of particles.
A glass has a random arrangement of particles. They are often called amorphous, which means without shape. Contrast with a crystal, which has a definite arrangement of particles.
Most solids do not have an orderly arrangement of particles: these are non-crystalline solids.
In solids, particles are tightly packed in a fixed arrangement and vibrate in place. In liquids, particles are close together but have the freedom to move past each other, leading to a more random arrangement. Liquids have more kinetic energy than solids, allowing particles to flow and take the shape of their container.
Crystalline solids have a well-ordered arrangement of particles in a repeating pattern, leading to defined geometric shapes and distinct melting points, whereas amorphous solids lack a long-range order in their atomic structure, resulting in a random arrangement of particles and no sharp melting point. Crystalline solids exhibit cleavage and anisotropy, while amorphous solids do not have cleavage planes and display isotropic properties.
Particles in solids are closely packed together in a fixed arrangement, which gives solids a definite shape and volume. The particles in solids vibrate in fixed positions but do not move around freely like in liquids or gases. This arrangement of particles in solids gives them high density and strong intermolecular forces.
Most solids have a repeating pattern arrangement of particles in a crystalline structure. This structure allows the particles to maintain a regular and ordered arrangement, resulting in the solid having a distinct shape and volume.
the difference between crystalline solids and amorphous solids are that particles in crystalline solids form a regular repeating pattern but in amorphous solids they are not arranged in a regular shapeCrystals are solids with fixed, regularpatterns
Particles do not have an orderly arrangement in an amorphous solid. In amorphous solids, the particles are arranged randomly, unlike in crystalline solids where the particles have a well-defined, repeating pattern. Examples of amorphous solids include glass and certain plastics.
The two different types of solid are crystalline solids, which have a well-defined structure with particles arranged in a repeating pattern, and amorphous solids, which have a random arrangement of particles without a well-defined structure.
The particles in crystalline solids are arranged in a repeating, three- dimensional pattern called a crystal. But amorphous solids often consist of large particles that are not arranged in a repeating pattern. They are found in a random arrangement which makes them to suck dicks or pussys!!