Class 9 Exam > Class 9 Notes > Compression & Rarefaction - Sound, Chapter Notes, Class 9, Science
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Compression and Rarefaction:
When a slinky is jerked to and forth, two phenomena take place simultaneously. First, the coils come closer to each other while; on the other hand; some of the adjacent coils go farther from each other. This phenomenon continues and the wave goes forward.
The action when coils come closer is called compression and when coils go farther from each other is called rarefaction.
In the given figure the area of compression is denoted by letter ‘C’ and the area of rarefaction is denoted by letter ‘R’.
When sound wave travels through a medium, say air, the particles of medium disturb in the same fashion, i.e. compression and rarefaction (depression). When air particles come closer it is called compression. On the other hand, when particles go farther than their normal position it is called rarefaction. This is similar to the compression and rarefaction produced in the slinky. In the condition of compression, molecules of medium come closer to each other and in the condition of rarefaction, molecules of medium go farther from each other; compared to their normal positions.
Density, pressure and disturbance:-
When compression takes place in the medium, the density and pressure of the medium increase. When rarefaction takes place in the medium, density and pressure of the medium decrease. This increase and decrease in density and pressure are temporary.
Thus, compression is called the region of high density and pressure. Rarefaction is called the region of low density and pressure.
Production of sound in laboratory:-
In laboratories, sound wave is produced by striking a tuning fork over a rubber pad. When prongs of the tuning fork are struck over a rubber pad, the prongs of tuning fork start vibrating and produce sound.
One can feel the vibration of prongs by touching them after striking over the rubber pad. The vibration produces sound energy. This sound energy creates disturbance in the medium by making compression and rarefaction and the sound wave propagates forward.
FAQs on Compression & Rarefaction - Sound, Chapter Notes, Class 9, Science
| 1. What is compression and rarefaction in the context of sound waves? |  |
Ans. Compression and rarefaction are two important concepts in the study of sound waves. Compression refers to the region in a sound wave where the particles are densely packed together, resulting in higher pressure. On the other hand, rarefaction refers to the region where the particles are spread apart, resulting in lower pressure. These alternating regions of compression and rarefaction create the vibrations that we perceive as sound.
| 2. How are compression and rarefaction related to the amplitude of a sound wave? | |
Ans. The amplitude of a sound wave is directly related to the degree of compression and rarefaction in the wave. Higher amplitudes correspond to greater differences in pressure between the compression and rarefaction regions, resulting in louder sounds. Conversely, lower amplitudes correspond to smaller differences in pressure and quieter sounds. Therefore, the amplitude of a sound wave determines its volume.
| 3. Can compression and rarefaction be visually represented? | |
Ans. Yes, compression and rarefaction can be visually represented using waveforms. In a waveform, the compression regions are represented by the peaks or crests, while the rarefaction regions are represented by the troughs. The distance between consecutive peaks or troughs represents the wavelength of the sound wave. By analyzing these waveforms, we can understand the characteristics of the sound wave, such as its frequency and amplitude.
| 4. How does compression and rarefaction affect the speed of sound? | |
Ans. Compression and rarefaction do not directly affect the speed of sound. The speed of sound is primarily determined by the medium through which it travels. In general, sound travels faster through denser materials, as the particles are closer together and can transmit the vibrations more quickly. However, compression and rarefaction play a role in determining the wavelength and frequency of the sound wave, which are related to its pitch.
| 5. How are compression and rarefaction utilized in practical applications? | |
Ans. Compression and rarefaction are utilized in various practical applications. For example, in sound reproduction systems like speakers, compression and rarefaction are used to generate sound waves that closely resemble the original sound. Similarly, compression and rarefaction are used in medical imaging techniques like ultrasound, where the waves are reflected off different tissues in the body to create images. The understanding of compression and rarefaction is essential in fields such as acoustics, music production, and telecommunications.
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