Two tunning forks A and B, produce notes of frequencies 258 Hz an

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 Multiple Choice QuestionsMultiple Choice Questions

251.

In a wave motion y = A sin (kx - ωt), y can represent

  • electric field

  • magnetic field

  • displacement

  • pressure


252.

A stationary source emits a sound moving towards a wall with a velocity u. Speed of sound in air is v. The fractional change in the wavelength of the sound sent and the reflected sound is

  • v + uv - u

  • 2uv + u

  • 2vv + u

  • u + v2v


253.

Two sound waves with wavelengths 4 m and 5 m respectively each propagating in a gas with velocity 340 m/s. The number of beats per second will be

  • 12 Hz

  • 15 Hz

  • 17 Hz

  • 11 Hz


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254.

Two tunning forks A and B, produce notes of frequencies 258 Hz and 262 Hz. An unknown note sounded with A produces certain beats. When the same note is sounded with B. The beat frequency gets doubled. The unknown frequency is

  • 250 Hz

  • 252 Hz

  • 254 Hz

  • 256 Hz


C.

254 Hz

Given, nA = 258 Hz and nB = 262 Hz

If it produces x beats with 258 and 2x beats with 262,

Then, 262 − (258 − x) = 2 x

         262 − 258 + x   = 2 x

⇒                          x   = 4

∴                           n   = 254 Hz


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255.

A bat emitting an ultrasonic wave of frequency 2 x 104 Hz flies at a speed of 6 m/s between two parallel walls. The beat frequency between the two frequencies heard
by the bat is (Given, speed of sound is 330 m/s)

  • 600 Hz

  • 800 Hz

  • 900 Hz

  • 1300 Hz


256.

The equation of a simple harmonic wave is given by y = 3sin π2 (50 t - x) where, x and y are in meters and t in seconds. The ratio of maximum particle velocity to the wave velocity is 

  • 2π

  • 32π

  • 3π

  • 23π


257.

Two strings with mass per unit length of 9 gcm-1 and 25 gcm-1 are joined together in series. The reflection coefficient for the vibration waves are

  • 925

  • 35

  • 116

  • 916


258.

The equation of a wave is y = 5 sin t0.04 - x4 where x is in cm and t in seconds. The maximum velocity of the wave will be

  • 1 ms-1

  • 2 ms-1

  • 1.5 ms-1

  • 1.25 ms-1


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259.

When the two waves y1 = a sin ωt and y2 = a cos ωt are superimposed, then resultant amplitude is

  • a

  • 2a

  • 2a

  • a2


260.

A train moves towards a stationary observer with speed 34 ms-1 . The train sounds a whistle and its frequency registered by the observer is v1 , If the train's speed is reduced to 17 ms-1, the frequency registered is v2.  If the speed of sound is 340 ms-1 , then the ratio v1 /v2 is

  • 2

  • 12

  • 1819

  • 1918


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