Intensity of a source of a 100 cd at a distance 2 m is from Phys

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 Multiple Choice QuestionsMultiple Choice Questions

241.

For the stationary wave

      y = u sin πx15 cos 96πt

The distance between a node and the next antinode is

  • 7.5 cm

  • 15 cm

  • 22.5 cm

  • 30 cm


242.

A tuning fork produce 2 beats when sounded with one oscillator of frequency 514 Hz, and produces 6 beats with the other oscillator of frequency 510 Hz. The frequency of tuning fork is

  • 516 Hz

  • 510 Hz

  • 514 Hz

  • 520 Hz


243.

To hear the echo in 1 s, the minimum distance of the source from the reflecting surface should be

  • 28 m

  • 18 m

  • 19 m

  • 165 m


244.

Sound waves produced in gas are

  • longitudinal

  • transversal

  • stationary

  • progressive


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245.

Intensity of a source of a 100 cd at a distance 2 m is

  • 25 lux

  • 50 lux

  • 75 lux

  • 150 lux


A.

25 lux

Intensity E = lr2                   = 100(2)2 = 1004 = 25 lux


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246.

Equation of a progressive sound wave is y = a sin 400 πt - πx0.85 where x in (metre), t (second), then frequency of wave is

  • 200 Hz

  • 400 Hz

  • 500 Hz

  • 600 Hz


247.

Wavelength of the wave in the above question is

  • 1.7 m

  • 8.5 m

  • 0.85 m

  • 0.17 m


248.

Relation of wavelengths of sound and light is

  • λS < λL

  • λS > λL

  • λS = λL

  • None of these


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249.

The displacement y of a particle in a medium can be expressed as y =10-6 sin (l00t + 20x + π/ 4) m, where t is in second and x in metre. The speed of the wave is

  • 2000 m/s

  • 5 m/s

  • 20 m/s

  • 5π m/s


250.

If the phase difference between two points is 60° on a wave velocity of 360 m/s and frequency 500 Hz, then path difference between the two points is

  • 1 cm

  • 6 cm

  • 12 cm

  • 24 cm


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