The relationship between waves and particles is a fundamental concept in physics, particularly in the field of quantum mechanics. While it is true that certain types of waves, such as electromagnetic waves, can exhibit particle-like behavior, the same does not apply to sound waves.
In quantum mechanics, particles can exhibit wave-particle duality, meaning they can exhibit both particle-like and wave-like characteristics. This behavior is described by the wave function, a mathematical representation that determines the probability distribution of finding a particle in a particular state.
Electromagnetic waves, such as light, can indeed exhibit particle-like behavior called photons. Photons are quanta (particles) of light, and their behavior can be described by both wave and particle properties.
However, sound waves are different. Sound is a mechanical wave that propagates through a medium, such as air or water, by causing compressions and rarefactions of the medium. While sound waves can be described by wave equations, they do not exhibit particle-like behavior in the same way as electromagnetic waves.
In general, the creation of particles from waves is a complex process that depends on specific interactions and conditions. While certain types of waves, like electromagnetic waves, can give rise to particle-like behavior, sound waves do not have the energy or characteristics necessary to create particles in the same manner.