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Test: Wave Optics- 2 (March 5) - NEET MCQ


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Test: Wave Optics- 2 (March 5) - Question 1

In an interference experiment monochromatic light is replaced by white light, we will see:​

Detailed Solution for Test: Wave Optics- 2 (March 5) - Question 1

white light is made up of seven colors VIBGYOR. All the seven colors will show interference, we can treat each color separately as a monochromatic light and study their interference separately. Each light will have their bright and dark fringes separately but at y=0 i.e for a center, each lights bright fringe will coincide. Two or more lights may have their bright and dark Fringe together or bright for one and dark for others may coincide depending upon the situation.

Test: Wave Optics- 2 (March 5) - Question 2

If the Young’s apparatus is immersed in water, the effect on fringe width will​

Detailed Solution for Test: Wave Optics- 2 (March 5) - Question 2

When Young's double-slit set up for interference is shifted from air to within water then the fringe width decreases because the refractive index of water is more than that of the air.
Originally the fringe width is given by:
β1​=λD/2d​
The new fringe width within water will be given by 
β2​= λD​/2nd
So, β2​= β1/n​​
Here, n is the refractive index of medium.
 

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Test: Wave Optics- 2 (March 5) - Question 3

Two coherent sources produce a dark fringe when phase difference between the interfering waves is(n integer)​

Detailed Solution for Test: Wave Optics- 2 (March 5) - Question 3

Dark fringes will be produced when there are destructive interference. The condition for that is the two waves should have a phase difference of an odd integral multiple of π.

Test: Wave Optics- 2 (March 5) - Question 4

In Young’s double slit experiment, the distance between the two slits is halved and the distance of the screen from the slit is doubled. The fringe width will be

Detailed Solution for Test: Wave Optics- 2 (March 5) - Question 4

Fringe width β=λD/d​
On d′=d/2​, D′=2D
New fringe width β′= λD′​/d′=4β

Test: Wave Optics- 2 (March 5) - Question 5

Young’s double slit experiment is carried out using two bulbs instead of using two slits and one source. Then​

Detailed Solution for Test: Wave Optics- 2 (March 5) - Question 5

We observe interference pattern when the size of the slits are comparable to the wavelength of light. But here, the size of the bulb is bigger than wavelength of light.

Test: Wave Optics- 2 (March 5) - Question 6

An unpolarised beam of intensity Io is incident on a polarizer and analyser placed in contact. The angle between the transmission axes of the polarizer and the analyser is θ. What is the intensity of light emerging out of the analyser?​

Detailed Solution for Test: Wave Optics- 2 (March 5) - Question 6

 Suppose the angle between the transmission axes of the analyser and the polarizer is θ. The completely plane polarized light form the polarizer is incident on the analyser. If E0 is the amplitude of the electric vector transmitted by the polarizer, then intensity I0 of the light incident on the analyser is
I ∞ E02
 
The electric field vector E0 can be resolved into two rectangular components i.e E0 cosθ and E0 sinθ. The analyzer will transmit only the component ( i.e E0 cosθ ) which is parallel to its transmission axis. However, the component E0sinθ will be absorbed by the analyser. Therefore, the intensity I of light transmitted by the analyzer is,
 
I ∞ ( E0 x cosθ )2
 
I / I0 = ( E0 x cosθ )2 / E02 = cos2θ
 
I = I0 x cos2θ
when light passes from polarizer it's intensity becomes half and when passed through analyser it becomes,
I = I0 x cos2θ/2
 

Test: Wave Optics- 2 (March 5) - Question 7

The Brewster’s angle for a transparent medium is 600.The angle of incidence is​

Detailed Solution for Test: Wave Optics- 2 (March 5) - Question 7

Brewster's angle is an angle of incidence at which light with a particular polarization is perfectly transmitted through a transparent dielectric surface, with no reflection. When unpolarized light is incident at this angle, the light that is reflected from the surface is therefore perfectly polarized.
So the angle of incidence would be 60°

Test: Wave Optics- 2 (March 5) - Question 8

The device or arrangement to detect and check plane polarized light is called

Detailed Solution for Test: Wave Optics- 2 (March 5) - Question 8

An analyser or analyzer is a person or device that analyses given data. It examines in detail the structure of the given data and tries to find patterns and relationships between parts of the data. An analyser can be a piece of hardware or a computer program running on a computer.

Test: Wave Optics- 2 (March 5) - Question 9

If the light is completely polarized by reflection, then angle between the reflected and refracted light is

Detailed Solution for Test: Wave Optics- 2 (March 5) - Question 9

The polarization angle (also called Brewster's angle)is defined as the angle of incidence at which light with a particular polarization is perfectly transmitted through a transparent dielectric surface, with no reflection.
Brewster's Law states that the tangent of the angle of polarization is numerically equal to the refractive index of the medium.
μ = tan i ...................... (1)
From Snell's law:
μ = sinr sini​ ....................(2)
Comparing (1) and (2)
cos i = sin r = cos (2π​ - r)
i.e. i = (2π​ - r)
So, i + r = 2π​
So, as seen from the diagram, if i + r = 90o Then the angle between reflected ray and refracted ray will be 180o - 90o = 90o

Test: Wave Optics- 2 (March 5) - Question 10

The intensity of light transmitted by the analyzer is maximum when

Detailed Solution for Test: Wave Optics- 2 (March 5) - Question 10

According to Malus’s law Iαcos2θ, when θ=0o or 180o, I=Iocos20o = Io
i.e the intensity of the light transmitted by the analyser is maximum when the transmission axes of analyser and polarizer are parallel.

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