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HC Verma Questions and Solutions: Chapter 16: Sound Waves- 1 | HC Verma Solutions - JEE PDF Download

Short Answers

Q.1. If you are walking on the moon, can you hear the sound of stones cracking behind you? Can you hear the sound of your own footsteps?

No, we cannot hear the sound of stones. Sound is a mechanical wave and requires a medium to travel; there is no medium on the moon.

No, we cannot hear the sound of our own footsteps because the vibrations of sound waves from the footsteps must travel through our body to reach our ears. By that time however, the sound waves diminish in magnitude.


Q.2. Can you hear your own words if you are standing in a perfect vacuum? Can you hear your friend in the same conditions?

Yes, we can hear ourselves speak. The ear membrane, being a part of our body, vibrates and allows sound to travel through our body.

No, we cannot hear our friend speak as there is no medium (air) through which sound can travel.


Q.3. A vertical rod is hit at one end. What kind of wave propagates in the rod if (a) the hit is made vertically (b) the hit is made horizontally?

(a) The vertical hit will set the particles at that end to vibrate longitudinally, This longitudinal disturbance propagates as a longitudinal wave in the rod.               

(b) The horizontal hit will set the particles at that end to vibrate along the perpendicular to the axis of the rod. So the disturbance will propagate as a transverse wave in the rod.  


Q.4. Two loudspeakers are arranged facing each other at some distance. Will a person standing behind one of the loudspeakers clearly hear the sound of the other loudspeaker or the clarity will be seriously damaged because of the 'collision' of the two sounds in between?

It depends on the position of the speakers. The placement decides whether the interference so formed is constructive or destructive.


Q.5. The voice of a person, who has inhaled helium, has a remarkably high pitch. Explain on the basis of resonant  vibration of vocal cord filled with air and with helium.

The frequency of sound produced by vibration of vocal chords is amplified by resonance in the voice box. Now resonant frequency is directly proportional to the velocity of sound present in the voice box. Now as Helium has less density than air, velocity of sound in Helium is higher than that in air. Higher velocity of sound in Helium implies that the resonant frequency of the sound in voice chamber filled with Helium will be higher than with air. Thus the voice is high pitched in Helium filled voice box.


Q.6. Draw a diagram to show the standing pressure wave and standing displacement wave for the 3rd overtone mode of vibration of an open organ pipe.

Frequencies for a standing wave in an open organ pipe is given by, ν = nV/2L, where n = 1, 2, 3, ..... n = 1 is for the fundamental mode of vibration. For the 3rd overtone mode of vibration n = 4, and the corresponding frequency ν = 4V/2L. It will have four pressure antinodes. Corresponding to these antinodes there will be four displacement nodes.
The diagram is the following:
HC Verma Questions and Solutions: Chapter 16: Sound Waves- 1 | HC Verma Solutions - JEE


Q.7. Two tuning forks vibrate with the same amplitude but the frequency of the first is double the frequency of the second. Which fork produces more intense sound in air?

We know that: intensity ∝ (amplitude)2.

However, the intensity is independent of frequency. As the amplitude of the vibrating forks is the same, both the forks produce sounds of the same intensity in the air.


Q.8. In discussing Doppler effect, we use the word "apparent frequency". Does it mean that the frequency of the sound is still that of the source and it is some physiological phenomenon in the listener's ear that gives rise to Doppler effect? Think for the observer approaching the source and for the source approaching the observer.

The frequency of the sound is still that of the source. However, the frequency of the vibrations received by the observer changes due to relative motion.

If both (the observer and the source) move towards each other, then the frequency of the vibrations received by the observer will be higher compared to the original frequency.

Multiple Choice Questions

Question for HC Verma Questions and Solutions: Chapter 16: Sound Waves- 1
Try yourself:Consider the following statements about sound passing through a gas.
(A) The pressure of the gas at a point oscillates in time.
(B) The position of a small layer of the gas oscillates in time.
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Question for HC Verma Questions and Solutions: Chapter 16: Sound Waves- 1
Try yourself:When we clap our hands, the sound produced is best described by Here p denotes the change in pressure from the equilibrium value.
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Question for HC Verma Questions and Solutions: Chapter 16: Sound Waves- 1
Try yourself:The bulk modulus and the density of water are greater than those of air. With this much of information, we can say that velocity of sound in air
View Solution

Question for HC Verma Questions and Solutions: Chapter 16: Sound Waves- 1
Try yourself:A tuning fork sends sound waves in air. If the temperature of the air increases, which of the following parameters will change?
View Solution

Question for HC Verma Questions and Solutions: Chapter 16: Sound Waves- 1
Try yourself:When sound wave is refracted from air to water, which of the following will remain unchanged?
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Question for HC Verma Questions and Solutions: Chapter 16: Sound Waves- 1
Try yourself:The speed of sound in a medium depends on
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Question for HC Verma Questions and Solutions: Chapter 16: Sound Waves- 1
Try yourself:Two sound waves move in the same direction in the same medium. The pressure amplitudes of the waves are equal but the wavelength of the first wave is double the second. Let the average power transmitted across a cross-section by the first wave be P1 and that by the second wave be P2. Then
View Solution

Question for HC Verma Questions and Solutions: Chapter 16: Sound Waves- 1
Try yourself:When two waves with same frequency and constant phase difference interfere,
View Solution

Question for HC Verma Questions and Solutions: Chapter 16: Sound Waves- 1
Try yourself:An open organ pipe of length L vibrates in its fundamental mode. The pressure variation is maximum
View Solution

Question for HC Verma Questions and Solutions: Chapter 16: Sound Waves- 1
Try yourself:An organ pipe, open at both ends, contains
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Question for HC Verma Questions and Solutions: Chapter 16: Sound Waves- 1
Try yourself:A cylindrical tube, open at both ends, has a fundamental frequency v. The tube is dipped vertically in water so that half of its length is inside the water. The new fundamental frequency is
View Solution

Question for HC Verma Questions and Solutions: Chapter 16: Sound Waves- 1
Try yourself:The phenomenon of beats can take place
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Question for HC Verma Questions and Solutions: Chapter 16: Sound Waves- 1
Try yourself:A tuning fork of frequency 512 Hz is vibrated with a sonometer wire and 6 beats per second are heard. The beat frequency reduces if the tension in the string isslightly increased. The original frequency of vibration of the string is
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Question for HC Verma Questions and Solutions: Chapter 16: Sound Waves- 1
Try yourself:The engine of a train sounds a whistle at frequency v. The frequency heard by a passenger is
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Question for HC Verma Questions and Solutions: Chapter 16: Sound Waves- 1
Try yourself:The change in frequency due to Doppler effect does not depend on
View Solution

Question for HC Verma Questions and Solutions: Chapter 16: Sound Waves- 1
Try yourself:A small source of sound moves on a circle as shown-in figure and an observer is sitting at o. Let v1, v2, vbe the frequencies heard when the source is at A, B and C respectively.
HC Verma Questions and Solutions: Chapter 16: Sound Waves- 1 | HC Verma Solutions - JEE
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Question for HC Verma Questions and Solutions: Chapter 16: Sound Waves- 1
Try yourself:When you speak to your friend, which of the following parameters have a unique value in the sound produced?
View Solution

*Multiple options can be correct
Question for HC Verma Questions and Solutions: Chapter 16: Sound Waves- 1
Try yourself:An electrically maintained tuning fork vibrates with constant frequency and constant amplitude. If the temperature of the surrounding air increases but pressure remains constant, the produced will have
Check
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*Multiple options can be correct
Question for HC Verma Questions and Solutions: Chapter 16: Sound Waves- 1
Try yourself:The fundamental frequency of a vibrating organ pipe is 200 Hz.
Check
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Question for HC Verma Questions and Solutions: Chapter 16: Sound Waves- 1
Try yourself:A source of sound moves towards an observer.
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*Multiple options can be correct
Question for HC Verma Questions and Solutions: Chapter 16: Sound Waves- 1
Try yourself:A listener is at rest with respect to the source of sound. A wind starts blowing along the line joining the source and the observer. Which of the following quantities do not change?
Check
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