key term - Speed of Sound

5 Must Know Facts For Your Next Test

1. The speed of sound in dry air at 20°C (68°F) is approximately 343 meters per second (1,125 feet per second).
2. The speed of sound varies depending on the properties of the medium, such as temperature, pressure, and composition.
3. The relationship between the speed of sound ($c$), frequency ($f$), and wavelength ($ extbackslash lambda$) is given by the equation: $c = f extbackslash lambda$.
4. The Doppler effect causes a change in the perceived frequency of a sound wave when the source and the observer are in relative motion, leading to the phenomenon of sonic booms.
5. Supersonic aircraft, which travel faster than the speed of sound, can create shock waves that result in loud, explosive sounds known as sonic booms.

Review Questions

• Explain how the speed of sound is related to the frequency and wavelength of a sound wave.
  • The speed of sound, frequency, and wavelength of a sound wave are related by the equation $c = f extbackslash lambda$, where $c$ is the speed of sound, $f$ is the frequency, and $ extbackslash lambda$ is the wavelength. This means that if the speed of sound is known, and either the frequency or wavelength is known, the other can be calculated. For example, if the speed of sound in a medium is 343 m/s and the frequency of a sound wave is 1000 Hz, the wavelength can be calculated as $ extbackslash lambda = c/f = 343 ext{ m/s} / 1000 ext{ Hz} = 0.343 ext{ m}$.
• Describe how the Doppler effect is related to the speed of sound and the motion of the sound source or observer.
  • The Doppler effect is the apparent change in the frequency of a sound wave due to the relative motion between the source of the sound and the observer. When the source of the sound is moving towards the observer, the observed frequency is higher than the actual frequency of the sound wave. Conversely, when the source is moving away from the observer, the observed frequency is lower. The magnitude of the Doppler shift is directly related to the speed of sound and the relative velocity between the source and the observer. This effect is particularly noticeable for objects moving at speeds close to or exceeding the speed of sound, leading to the phenomenon of sonic booms.
• Analyze the factors that can influence the speed of sound in a given medium and explain how these factors might affect the propagation of sound waves.
  • The speed of sound in a medium is influenced by several factors, including temperature, pressure, and the composition of the medium. For example, in dry air at 20°C, the speed of sound is approximately 343 m/s, but this value can change significantly with changes in temperature. As the temperature increases, the speed of sound also increases, due to the increased kinetic energy of the gas molecules. Similarly, changes in pressure can affect the speed of sound, with higher pressures generally resulting in higher speeds. The composition of the medium is also important, as the speed of sound will vary depending on the density and elasticity of the material. These factors can have significant implications for the propagation of sound waves, affecting their behavior, such as refraction, reflection, and interference, in different environments.