No, sound waves are not made out of atoms, electrons, or particles. Sound waves are a type of mechanical wave that propagates through a medium, such as air, water, or solids. They are composed of oscillations or vibrations of the particles within the medium.
When a sound is produced, it is typically generated by a vibrating object, such as a speaker cone or a guitar string. This vibration sets the surrounding particles of the medium in motion. In the case of air, for example, the vibrating object compresses and rarifies the air molecules, creating areas of high pressure (compression) and low pressure (rarefaction). These pressure variations then travel as a wave through the medium, carrying the sound energy with them.
While atoms, electrons, and particles are present in the medium and interact with the sound waves, they are not the constituent components of the sound wave itself. Instead, they are the entities that experience the oscillatory motion induced by the sound wave. The wave itself represents the transfer of energy through the medium, not the movement of individual atoms or particles.
In summary, sound waves are not composed of atoms, electrons, or particles. Rather, they are the propagation of oscillations or vibrations through a medium, resulting in the transfer of sound energy. The atoms, electrons, and particles within the medium respond to these vibrations, but they are not the building blocks of the sound wave itself.