The speed of sound is dependent on the type of medium the sound waves travel through. The velocity of sound waves moving through air can be further reduced by high wind speeds that dissipate the sound wave’s energy. Sound moves similarly through water, but its velocity is over four times faster than it is in air. This enables sound waves to rapidly transfer vibrations from one molecule to another. But how do these affect its movement? Sound moves most quickly through solids, because its molecules are densely packed together. We know that sound can travel through gases, liquids, and solids. This means there’s no sound in space!īefore we discuss how sound travels, it’s important to understand what a medium is and how it affects sound. Unlike light, sound waves can only travel through a medium, such as air, glass, or metal. They both originate from a definite source and can be distributed or scattered using various means. In many ways, sound waves are similar to light waves. The human ear detects sound waves when vibrating air particles vibrate small parts within the ear. As the particles vibrate, they move nearby particles, transmitting the sound further through the medium. This pressure wave causes particles in the surrounding medium (air, water, or solid) to have vibrational motion. Sound is produced when an object vibrates, creating a pressure wave. In nature, bats emit ultrasonic waves to locate prey and avoid obstacles. Some lesser-known applications of ultrasound include navigation, imaging, sample mixing, communication, and testing. Ultrasound is most often used by medical specialists who use sonograms to examine their patients’ internal organs. Because ultrasound occurs at frequencies outside the human hearing range, it is inaudible to the human ear. Sound waves that have frequencies higher than 20,000 Hz produce ultrasound. Whales, hippos, rhinos, giraffes, elephants, and alligators all use infrasound to communicate across impressive distances – sometimes hundreds of miles! Despite our inability to hear infrasound, many animals use infrasonic waves to communicate in nature. Scientists use infrasound to detect earthquakes and volcanic eruptions, to map rock and petroleum formations underground, and to study activity in the human heart. Infrasonic waves have frequencies below 20 Hz, which makes them inaudible to the human ear. Waves below 20 Hz are called infrasonic waves (infrasound), while higher frequencies above 20,000 Hz are known as ultrasonic waves (ultrasound). This is because dog whistles produce sound waves that are below the human hearing range of 20 Hz to 20,000 Hz. Other sounds, such as a dog whistle, are inaudible to the human ear. And while the sound of road construction early on Saturday morning is also audible, it certainly isn’t pleasant or soft. You’re likely to find the sounds produced by a piano player soft, audible, and musical. There are many different types of sound including, audible, inaudible, unpleasant, pleasant, soft, loud, noise and music. You may recognize this section from our blog post, “What is a Sound Wave in Physics?” Keep reading for a more in-depth look at sound waves.
While the physiological definition includes a subject’s reception of sound, the physics definition recognizes that sound exists independently of an individual’s reception. When an object vibrates, it causes the surrounding air molecules to vibrate, initiating a chain reaction of sound wave vibrations throughout the medium.
In physics, sound is produced in the form of a pressure wave. In physiology, sound is produced when an object’s vibrations move through a medium until they enter the human eardrum.