Figure shows spring + block + pulley system which are light.

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 Multiple Choice QuestionsMultiple Choice Questions

171.

A sound source producing waves of frequency 300 Hz and wavelength lm observer is stationary, while source is going away with the velocity 30 m is, then apparent frequency heared by the observer is

  • 270 Hz

  • 273 Hz

  • 383 Hz

  • 300Hz


172.

Linear density of a string of is 1.3 x 10-4 kg/m and wave equation is y = 0.021 sin (x + 30t ), Find, the tension in the string where, x in metre and t in second

  • 0.12 N

  • 0.21 N

  • 1.2 N

  • 0.012 N


173.

An observer is approaching with velocity v towards a light source. If the velocity of light is c, then velocity of light with respect to observer will be

  • c - v

  • c

  • c + v

  • 1 - v2c2


174.

A 4 kg block is suspended from the ceiling of an elevator through a spring having a linear mass density of 19.2 x 10-3 kg m-3 . Find the speed with respect to spring with which a wave pulse can proceed on the spring if the elevator accelerates up at the rate of 2.0 ms-2.
Take g = 10 ms-2

  • 30 m/s

  • 42 m/s

  • 46 m/s

  • 50 m/s


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175.

Figure shows spring + block + pulley system which are light. The time period of mass would be

  

  • 2π km

  • 12πkm

  • 2πmk

  • 12π mk


C.

2πmk

Let when m is hanging, the extension in the spring is l, then tension in the string is,

    T1 = k l = mg

When force is applied, let the further extension is x.

 The tension in the spring is

     T2 = k ( x + l )

∴ Driving force = T2 - T1

                       = k (  x + l ) - kl

  Driving force = k x

∴   Acceleration  = klm

⇒          T = 2π displacementacceleration

               = 2π xkx

⇒         T = 2π xkxm

⇒         T = 2π mk


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176.

A bat emitting an ultrasonic wave of frequency 4.5 x 10' Hz at speed of 6 m/s between two parallel walls. The two frequencies heared by the bat will be

  • 4.67 x 104 Hz, 4.34 x 104 Hz

  • 4.34 x 104 Hz, 4.67 x 104 Hz

  • 4.5 x 104 Hz, 5.4 x 104 Hz

  • 4.67 x 103 Hz, 4.34 x 104 Hz


177.

A wave packet with center frequency ω is propagating in dispersive medium with phase velocity of 1.5 x 103 m/s. When the frequency ω is increased by 2%, the phase velocity is found to decrease by 3 %. What is group velocity of the wave packet?

  • 0.25 × 103 m/s

  • 1.0 × 103 m/s

  • 0.6 × 103 m/s

  • 0.75 × 103 m/s


178.

When a stretched wire and a tuning fork are sounded together, 5  beats per second are produced, when length of wire is  95 cm or 100 cm, frequency of the fork is

  • 90 Hz

  • 100 Hz

  • 105 Hz

  • 195 Hz


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179.

Four massless springs whose force constants are 2k, 2k, k and 2k respectively are attached to a mass M kept on a frictionless plane as shown in the figure. If the mass M is displaced in the horizontal direction, then the frequency of the system is


180.

The equation of a progressive wave is given by y = 5 sin100 π t - 0.4 π x where y and x are in m and t is in s

(1) The amplitude of the wave is 5 m.

(2) The wavelength of the wave is 5 m.

(3) The frequency of the wave is 50 Hz.

(4) The velocity of the wave is 250 m s-1

Which of the following statements are correct?

  • (1), (2) and (3)

  • (2) and (3)

  • (1) and (4)

  • All are correct


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