The rate at which a wave propagates through a space fundamentally depends on the native properties of that field. It's not simply about how much power is initially imparted; rather, it's a relationship dictated by factors such as mass, elasticity, and pull. For instance, a sound wave travels faster in denser air than in less dense air, assuming hea

The magnitude of traveling velocity dictates how quickly a variation propagates through a substance . It isn't simply the speed of individual particles; rather, it's the rate at which the complete shape or pattern of the wave advances. This characteristic is often symbolized by 'v' and is intrinsically linked to the distance (λ) and frequency (f)