CLASS 9TH IMPORTANT NOTES OF CHAPTER SOUND

1. Production of Sound

 

Sound is produced due to the vibration of objects.   Vibration is the rapid to and fro motion of an object.

Vibrating objects are the source of all sounds Irregular, chaotic vibrations produce noise Regular, controlled vibration can produce music All sound is a combination of pure frequencies

A stretched rubber band when plucked vibrates and produces sound.

 

2. Propagation of Sound

 

When an object vibrates, the particles around the medium vibrate. The particle in contact with the vibrating object is first displaced from its equilibrium position

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

A wave is a disturbance which moves through a medium by the vibration of the particles of the medium. So sound is considered as a wave.Sound waves Require medium for transmission.Sound waves are called mechanical waves. When a vibrating object moves forward, it pushes and compresses the air in front of it forming a region of high pressure called compression (C). When the vibrating object moves backward, it forms a region of low pressure called rarefaction (R).

A vibrating object producing a series of compressions (C) and rarefaction (R)

In these waves the particles move back and forth parallel to the direction of propagation of the disturbance. Such waves are called longitudinal waves.

There is another kind of waves called transverse waves. In these waves the particles oscillate up and down perpendicular to the propagation of the direction of disturbance.  

 Sound propagates in a medium as a series of compressions (C) and rarefactions (R).

Compressions are the regions of high pressure and density where the particles are crowded and are represented by the upper portion of the curve called crest.

Rarefactions are the regions of low pressure and density where the particles are spread out and

The number of oscillations per unit time is called the frequency of the sound wave. It is represented by the symbol ٧ (Greek letter nu).    Its SI unit is hertz (Hz

 

 

AMPLITUDE

The amplitude of sound wave is the height of the crest or tough.

It is represented by the letter A.

 

The wavelength is the distance between the "crests" of two waves that are next to each other. The amplitude is how high the crests are.

Pitch and loudness of sound

 

The pitch of sound (shrillness or flatness) depends on the frequency of vibration.

 

If the frequency is high, the sound has high pitch and if the frequency is low, the sound has low pitch

Speed of sound

 

The speed of sound is more in solids, less in liquids and least in gases.

 

The speed of sound also depends on the temperature of the medium. If the temperature of the medium is more, the speed of sound is more

3. Reflection of Sound

 

Sound gets reflected at the surface of a solid or liquid and follows the laws of reflection.

i) The angle of incidence is equal to the angle of reflection.

ii) The incident ray, the reflected ray and normal at the point of incidence all lie in the same plane.

 

 

4. Echo

 

If we shout or clap near a reflecting surface like tall building or a mountain, we hear the

 

same sound again. This sound which we hear is called echo. It is caused due to the reflection of sound.

To hear an echo clearly, the time interval between the original sound and the echo must be at least 0.1 s.

Since the speed of sound in air is 344 m/s, the distance travelled by sound in 0.I s = 344 m/s x 0.1 s = 34.4 m

So to hear an echo clearly, the minimum distance of the reflecting surface should be half this distance that is 17.2 m.

Reverberation

 

Echoes may be heard more than once due to repeated or multiple reflections of sound from several reflecting surfaces. This causes persistence of sound called reverberation.

In big halls or auditoriums to reduce reverberation, the roofs and walls are covered by sound absorbing materials like compressed fibre boards, rough plaster or draperies.

5. Uses Of Multiple Reflection Of Sound

 

Megaphones, horns, musical instruments like trumpets, etc. are deigned to send sound by multiple reflection in a particular  direction without spreading in all directions.

ii)  Doctors listen to sounds from the human body through a  stethoscope. The sound of

 

heartbeat reaches the doctor’s ears by multiple reflection.

 

iii) Generally the ceilings of cinema halls and auditoriums are curved  so that sound after multiple reflection reaches all parts of the hall

Sometimes a curved sound board is placed behind the stage so that  sound after multiple reflection spreads evenly across the hall.

6. Range of Hearing

 

Human beings can hear sound frequencies between 20 Hz and 2000 Hz. Sound whose frequency is less than 20 Hz is called infrasonic sound Sound whose frequency is more than 2000 Hz is called ultrasonic sounUltrasonic sound is used to clean objects like electronic  Components, used to detect cracks in metal blocks, used in ultra sound scanners for  getting images of internal organs of the human body used to break small stones formed in   the kidneys into fine grains.

8 Sonar

It is a device which uses ultrasonic waves to measure distance, direction and speed of underwater objects. The distance of the object can be calculated by knowing the speed of sound in water and the time taken between the transmission and reception of ultrasound

 

9.Structure of the human ear

The sound waves passes through the ear canal to a thin membrane called eardrum. The eardrum vibrates. The vibrations are amplified by the three bones of the middle ear called

hammer, anvil and stirrup. Middle ear then transmits the sound waves to the inner ear. The brain then interprets the signals as sound.
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  The SI unit is the same as that of density or pressure