Chapter 10: Sound Waves: Characteristics and Applications

10.1 Production of Sound

Vibration: Sound is produced by vibrations, which are the periodic to-and-fro motion (oscillations) of an object.
Source: The object that produces sound is called the source of the sound, which involves vibrating strings, membranes, air columns, or other parts.

Vocal cords: Tightly stretched muscular flaps located inside the throat that vibrate to produce human voice.
Larynx: The human voice box containing vocal cords that convert lung airflow into audible speech or music.

Tuning fork: A U-shaped steel or aluminum bar with two prongs and a stem, designed to vibrate at a precise frequency when struck against a rubber pad.
Prongs: The two parallel tines of a tuning fork whose vibrations can produce visible wave disturbances when dipped in water.

10.2 Propagation of Sound

Medium: The material (solid, liquid, or gas) through which sound travels. Sound travels fastest in solids, slower in liquids, and slowest in gases.

Vacuum: A space devoid of any matter (medium), through which sound waves cannot travel.
Vacuum bell jar experiment: An experiment showing that an electric bell inside a jar becomes completely silent once the air is pumped out, demonstrating that sound needs a medium to propagate.

10.3 Sound Waves

Sound wave: A longitudinal mechanical wave consisting of alternating compressions and rarefactions propagating through a medium.
Compression: A region in a sound wave where the density of the medium is higher than the average density.
Rarefaction: A region in a sound wave where the density of the medium is lower than the average density.

Longitudinal waves: Waves in which the particles of the medium vibrate back and forth parallel to the direction of wave propagation.
Transverse waves: Waves in which the particles of the medium vibrate perpendicular to the direction of wave propagation (e.g., light waves).
Mechanical waves: Waves that strictly require a material medium (solid, liquid, or gas) for their propagation (e.g., sound waves).

10.4 Energy of Sound Waves

Sound energy: A form of energy transferred via particle-to-particle collisions without the actual forward transport of physical particles of the medium.

Microphone: A device that converts sound energy into electrical energy when sound waves make its diaphragm vibrate.
Diaphragm: A thin membrane inside a microphone or speaker that vibrates in response to or to produce sound waves.
Speaker: A device that converts electrical signals into mechanical vibrations of a diaphragm to produce sound.

10.5 Graphical Representation of a Sound Wave

Crest: The peak on a density-distance graph representing the region of maximum density (compression).
Trough: The valley on a density-distance graph representing the region of minimum density (rarefaction).

10.6 Characteristics of a Sound Wave

Wavelength: The distance between two consecutive crests or two consecutive troughs, represented by λ and measured in meters (m).
Frequency: The number of density oscillations at a fixed point per unit time, represented by ν and measured in Hertz (Hz).
Time period: The time taken for one complete density oscillation at a fixed point, represented by T and measured in seconds (s).

Amplitude: The maximum change in air density compared to the average density during compression or rarefaction.
Intensity: The amount of sound energy passing through a unit area perpendicular to the direction of propagation in unit time.
Speed of sound: Calculated as the product of wavelength and frequency (v = λν). It increases with temperature and humidity.

Pitch: The human brain's perception of frequency; high frequency is perceived as a high-pitch shrill sound.
Loudness: The human brain's perception of amplitude; a wave with larger amplitude carries more energy and sounds louder.
Audible range: The range of frequencies a normal human can hear, typically spanning from 20 Hz to 20,000 Hz.
Timbre: The quality of sound that allows us to distinguish between different musical instruments playing the same note at the same loudness.
Tone: A sound consisting of a single, pure frequency.
Octave: The interval between two frequencies where one has exactly double the frequency of the other.

10.7 Reflection of Sound

Echo: A distinct reflected sound heard when the reflection off a hard surface arrives at least 0.1 seconds after the original sound (minimum distance is about 17 m).
Reverberation: The persistence of sound in a large hall due to multiple rapid reflections arriving with a time gap less than 0.05 seconds.

10.8 Ultrasonic and Infrasonic Waves, and their Applications

Infrasonic waves: Sound waves with frequencies below 20 Hz, used by animals like elephants and for detecting earthquakes.
Ultrasonic waves: Sound waves with frequencies above 20 kHz, used in medical imaging (ultrasonography), industrial cleaning, and metal testing.

Echolocation: A physiological process used by bats, dolphins, and whales to locate obstacles and prey by emitting ultrasonic pulses and hearing their echoes.
Sonar: Sound Navigation and Ranging; an underwater system that transmits ultrasonic waves and analyzes reflected echoes to calculate the depth or location of underwater objects.