Sound waves transfer from Physics Waves

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 Multiple Choice QuestionsMultiple Choice Questions

91.

If μ0 is permeability of free space and ε0 is permittivity of free space, the speed of light in vacuum is given by

  • μ0ε0

  • μ0ε0

  • 1μ0ε0

  • ε0μ0


92.

With what velocity should an observer approach a stationary sound source, so that the apparent frequency of sound should appear double the actual frequency? (v is velocity of sound).

  • v2

  • 3v

  • 2v

  • v


93.

A string vibrates with a frequency of 200 Hz. When its length is doubled and tension is altered, it begins to vibrate with a frequency of 300 Hz. The ratio of the new tension to the original tension is

  • 9 : 1

  • 1 : 9

  • 3 : 1

  • 1 : 3


94.

How many times more intense is a 60 dB sound than a 30 dB sound ?

  • 1000

  • 2

  • 100

  • 4


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95.

Two sources are said to be coherent if they produce waves

  • having a constant phase difference

  • of equal wavelength

  • of equal speed

  • having same shape of wavefront


96.

According to Newton's corpuscular theory, the speed of light is

  • same in all the media

  • lesser in rarer medium

  • lesser in denser medium

  • independent of the medium


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97.

Sound waves transfer

  • only energy not momentum

  • energy

  • momentum

  • Both (a) and (b)


D.

Both (a) and (b)

Sound waves transfer both energy and momentum.


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98.

A stationary point source of sound emits sound uniformly in all directions in a non-absorbing medium. Two points P and Q are at a distance of 4 m and 9 m respectively from the source. The ratio of amplitudes of the waves at P and Q is

  • 32

  • 49

  • 23

  • 94


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99.

y = 3 sin π t2 - x4 represents an equation of a progressive wave, where t is in second and x is in metre. The distance travelled by the wave in 5 s is

  • 8 m

  • 10 m

  • 5 m

  • 32 m


100.

A cylindrical tube open at both the ends has a fundamental frequency of 390 Hz in air. If 14th of the tube is immersed vertically in water the fundamental frequency of air column is

  • 260 Hz

  • 130 Hz

  • 390 Hz

  • 520 Hz


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