A : The propagation of sound in air should be an isothermal process.

R : As air is bad conductor of heat, its temperature does not change by compression or expansion.

  1. If both the assertion and the reason are true and the reason is a correct explanation of the assertion
  2. If both the assertion and reason are true but the reason is not a correct explanation of the assertion
  3. If the assertion is true but the reason is false
  4. If both the assertion and reason are false

Subtopic:  Pressure Wave in Sound |
 64%
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Statement–1 : In the case of a stationary wave,
a person hear a loud sound at the pressure nodes
as compared to the antinodes.
and
Statement–2 : In a stationary wave all the
particles of the medium vibrate in phase.
1. Statement-1 is True, Statement-2 is True,
Statement-2 is a correct explanation for
statement-1

2. Statement-1 is True, Statement-2 is True,
Statement-2 is NOT a correct explanation
for Statement-1

3. Statement-1 is True, Statement-2 is False

4. Statement-1 is False, Statement-2 is True

Subtopic:  Pressure Wave in Sound |
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Which one of the following statements is true?

1. Both light and sound waves in the air are transverse.
2. The sound waves in the air are longitudinal while the light waves are transverse.
3. Both light and sound waves in the air are longitudinal.
4. Both light and sound waves can travel in a vacuum.
Subtopic:  Types of Waves |
 81%
From NCERT
AIPMT - 2006
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The time of reverberation of a room \(A\) is one second. What will be the time (in seconds) of reverberation of a room, having all the dimensions double those of room A?

1. 2

2. 4

3. 12

4. 1

Subtopic:  Speed of Sound |
AIPMT - 2006
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A transverse wave propagating along the \(x\text-\)axis is represented by:
\(y(x,t)=8.0\sin\left(0.5\pi x-4\pi t-\frac{\pi}{4}\right)\), where \(x\) is in meters and \(t\) in seconds. The speed of the wave is: 
1. \(4\pi\) m/s
2. \(0.5\) m/s
3. \(\frac{\pi}{4}\) m/s
4. \(8\) m/s

Subtopic:  Wave Motion |
 83%
From NCERT
AIPMT - 2006
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Two sound waves with wavelengths \(5.0~\text{m}\) and \(5.5~\text{m}\), respectively, propagate in gas with a velocity of \(330~\text{m/s}\). How many beats per second can we expect?
1. \(12\)
2. \(0\)
3. \(1\)
4. \(6\)

Subtopic:  Beats |
 75%
From NCERT
AIPMT - 2006
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What is sound level for intensity of 10–6 W/m2?

1. 50 dB 

2. 60 dB

3. 70 dB 

4. 80 dB

Subtopic:  Energy of Waves |
 79%
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Each of the two strings of lengths \(51.6~\text{cm}\) and \(49.1~\text{cm}\) is tensioned separately by \(20~\text{N}\) of force. The mass per unit length of both strings is the same and equals \(1~\text{g/m}.\) When both the strings vibrate simultaneously, the number of beats is:
1. \(5\) 2. \(7\)
3. \(8\) 4. \(3\)
Subtopic:  Beats |
 56%
From NCERT
AIPMT - 2009
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The driver of a car travelling at a speed of 30 m/s towards a hill sounds a horn of frequency 600 Hz. If the velocity of sound in air is 330 m/s, the frequency of reflected sound as heard by the driver is:

1. 550 Hz

2. 555.5 Hz

3. 720 Hz

4. 500 Hz

Subtopic:  Doppler's Effect (OLD NCERT) |
 77%
From NCERT
AIPMT - 2009
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A wave in a string has an amplitude of \(2\) cm. The wave travels in the positive direction of the \(x\text-\)axis with a speed of \(128~\text{m/s}\) and it is noted that \(5\) complete waves fit in the \(4\) m length of the string. The equation describing the wave is:
1. \(y =(0.02~\text{m})\sin(7.85x+1005t)\)
2. \(y =(0.02~\text{m})\sin(15.7x-2010t)\)
3. \(y =(0.02~\text{m})\sin(15.7x+2010t)\)
4. \(y =(0.02~\text{m})\sin(7.85x-1005t)\)
Subtopic:  Wave Motion |
 73%
From NCERT
AIPMT - 2009
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