The ratio of intensities of two waves is 1: 9. The waves interfer

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 Multiple Choice QuestionsMultiple Choice Questions

201.

The slit width, when a light of wavelength 6500 Å is incident on a slit, if first minima for red light is at 30°, is :

  • 1 × 10-6 m

  • 5.2 × 10-6 m

  • 1.3 × 10-6 m

  • 2.6 × 10-6 m


202.

In single slit diffraction pattern

  • central fringe has negligible width than others

  • all fringes are of same width

  • central fringe does not exist

  • none of the above


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203.

The ratio of intensities of two waves is 1: 9. The waves interference, what will be the ratio of maximum and minimum intensities?

  • 1:4

  • 4:1

  • 3:2

  • 2:3


B.

4:1

Given : I1 : I2 = 1 : 9

But, intensity I  a2

   a1: a22 = 1 : 9

         a: a2 = 1:3

Let a1 = a,  a2 = 3a

 ImaxImin = (a1+a2)2(a1-a2)2         = 4a2a2 = 41


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204.

Two coherent monochromatic light beams of intensities I and 9I are superimposed.The maximum and the minimum intensities of the resultant beams are

  • 10 I and zero

  • 10 I and 8 I

  • 10 I and 4 I

  • 16 I and 4 I


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205.

In a single slit diffraction pattern, the distance between the first minimum on the left and the first minimum on the right is 5 mm. The screen on which the diffraction pattern is displayed is at a distance of 80 cm from the slit. The, wavelength is 6000 A. The slit width (in mm) is about

  • 0.576

  • 0.348

  • 0.192

  • 0.096


206.

To demonstrate the phenomenon of interference we require two sources which emit radiations of

  • nearly the same frequency

  • the same frequency

  • different wavelengths

  • the same frequency and having a definite phase relationship


207.

In Young's experiment, the wavelength of red light is 7800 A and that of blue light is 5200 A . The value of n for which (n + 1)th blue band coincides with nth red band is

  • 1

  • 2

  • 3

  • 4


208.

The phenomenon of polarization of light indicates that

  • light is a longitudinal waves

  • light is transverse wave

  • light if not a wave

  • light travels with the velocity of 3x 108 m/s


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209.

In Young's double slit experiment one slit is covered with red filter and another slit is covered by green filter, then interference pattern will be

  • red

  • green

  • yellow

  • invisible


210.

In Young's experiment, if separation between slits is made half, then fringe width will become

  • double

  • four times

  • half

  • remains same


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