CBSE Class 9 Science, Sound: Chapter notes (Part-I)

Here, you will get the CBSE Class 9 Science, Sound: Chapter notes (Part-I). These chapter notes are prepared by the subject experts and cover every important topic from the chapter. You get a crisp and brief explanation of all these topics so as to make your learning easy and organized. At the end of the notes you can try the questions asked from the discussed set of topics. These questions will help you to track your preparation level and get a hold on the subject.

Also Read: CBSE Class 9 Science, Sound: Chapter notes (Part-II)

Main topics covered in this part of CBSE Class 9 Science, Sound: Chapter Notes, are:

Also Read: CBSE Class 9 Complete Study Material for 2020-2021

Keynotes for Chapter - Sound, are:

Sound

Sound is a form of energy which produces a sensation of hearing in our ears.

Production of Sound
Sound is produced due to the vibration of objects.
Vibration is a periodic back-and-forth motion of the particles of an elastic body or medium about a central position. It is also named as oscillation.
For example:

CBSE Class 9 Science Syllabus (Latest)

Propagation of Sound

Only the disturbance produced by the vibrating body travels through the medium but the particles do not move forward themselves.

Medium

Wave that requires medium to propagate is called Mechanical wave.

Wave

Wave is a phenomenon or disturbance in which energy is transferred from one point to another without any direct contact between them. For example: Heat, light and sound is considered as a wave.

Types of Waves
On the basis of direction of propagation, waves are categorized into two parts:

(i) Longitudinal waves: These are the waves in which the particles of the medium vibrate along the direction of propagation of the wave. For example: sound wave.
(ii) Transverse waves: In this type of wave the particles of the medium vibrate in a direction perpendicular to the direction of propagation of the wave. For example: waves produced in a stretched string.
Another type of waves which do not require any medium for propagation are called electromagnetic waves. These waves can travel through vacuum also. For example, light waves, X-rays.

Compressions and Rarefactions:

          Compressions are represented by the upper portion of the curve called crest.

          Rarefactions are represented by the lower portion of the curve called trough.

Characteristics of a sound wave

Sound waves have following characteristics:
(1) Amplitude
(2) wavelength
(3) Frequency
(4) Time period

(5)Velocity

Amplitude

Wavelength

Frequency

Time period

               i.e., v = 1/T

Velocity

⟹      v = λ/T  , where λ = wavelength of the wave travelled in one time time period T)

⟹      v = λv      (As 1/T = v)

Thus, Velocity = Wavelength × Frequency

v = λv is called the wave equation.

Pitch and loudness of Sound

Pitch: It represents shrillness or flatness of sound.

It depends on the frequency of vibration. Higher the frequency of sound wave, the higher will be the pitch of sound and vice-versa.

Loudness: It is a measure of the sound energy reaching the ear per second.

It depends on the amplitude of the sound wave.

It is measured in decibel ‘dB’.

Music And Noise
Music:
It is the sound that is pleasant to hear. For example: Sound coming out of musical instruments)
Noise: It is the sound that is unpleasant to hear. For example: Sound produced by vehicles.

Tone and Note
Tone:
A pure sound of single frequency is called tone.
Note: An impure sound produced by mixture of many frequencies is called a note. For example: A musical note has tones of various frequencies.

Audible Frequency

The audible range of human ear is 20 Hz and 20,000HZ, i.e., the human ears can hear only those waves whose frequency lies between 20 Hz and 20,000HZ.

Reflection of sound  

When sound waves strike a surface, they return back into the same medium. This phenomenon is called reflection.

Laws of reflection

There are two basic laws of reflection of sound:

(i) Angle of incidence is equal the angle of reflection.

(ii) The incident wave, the reflected wave and the normal all lie in the same plane.

Applications of  Reflection of Sound

Many instruments work on the basis of multiple reflections of sound:

Try the following questions:

Q1. Is sound wave longitudinal or transverse.

Q2. Which characteristic of the sound helps you to identify your friend by his voice while sitting with others in a darkroom?

Q3. An airplane produces a sound wave with frequency of 5 KHz and wavelength 30 m. In how much time would the sound wave cover the distance of 4 Km?

Q4. A source is producing 15 waves in 3.0 s. The distance between a crest and a trough is 10.0 cm. Find : (a) the frequency, (b) the wavelength, and (c) the velocity of the wave.

Q5. A source is producing 1500 sounds waves in 3 seconds. If the distance covered by a compression and an adjacent rarefaction be 68 cm, find (a) frequency (b) wavelength and (c) velocity of sound wave.

Q6. A sound wave travels at a speed of 340m/s. If its wavelength is 2 cm, what is the frequency of the wave? Will it be in the audible range?

Q7. Can we hear the ringing of a mobile phone placed in a vacuum chamber?

Also Read: CBSE Class 9 Science Chapter Notes - All Chapters

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