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Diffraction MCQ Level -2 - IIT JAM MCQ


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10 Questions MCQ Test - Diffraction MCQ Level -2

Diffraction MCQ Level -2 for IIT JAM 2024 is part of IIT JAM preparation. The Diffraction MCQ Level -2 questions and answers have been prepared according to the IIT JAM exam syllabus.The Diffraction MCQ Level -2 MCQs are made for IIT JAM 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Diffraction MCQ Level -2 below.
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Diffraction MCQ Level -2 - Question 1

Red light of wavelength 644 nm, from a point source, passes through two parallel and narrow slits which are 1.00 mm apart. Determine the distance between the central bright fringe and the third dark interference fringe formed on a screen parallel to the plane of the slits and 1.00 m away.

Detailed Solution for Diffraction MCQ Level -2 - Question 1

In 2-slit interference, the interference fringe spacing y is given by

y = λD/d (e.g. see 1st link).

where D is screen distance and d = slit separation

That's a standard formula, though you may have been taught it using different symbols.

In this question, D = 1.00m and d = 1.00mm = 0.00100m

y = 644x10⁻⁹ x 1.00 / 0.00100

. .= 6.44x10⁻⁴ m

. .= 0.644mm

The bright and dark fringes (B and D)are arranged outwards from each side of the centre like this

BDBDBD

centre

The first dark fringe is therefore y/2 from the centre and the third dark fringe is y/2 + y + y = 2.5y from the centre.

From the centre to the third dark interference fringe is 2.5 x 0.644 = 1.61mm.

Diffraction MCQ Level -2 - Question 2

Which of the following effects could not be observed for sound waves in air?

Detailed Solution for Diffraction MCQ Level -2 - Question 2

The correct answer is: polarization

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Diffraction MCQ Level -2 - Question 3

In Double Slit Fraunhofer Diffraction, some orders of interference pattern are missing. It is called _____ 

Detailed Solution for Diffraction MCQ Level -2 - Question 3

In Double Slit Fraunhofer Diffraction, there are certain angles where the interference maxima and Diffraction minima overlap. These orders of interference pattern are missing in the pattern. It is known as Absent Spectra.

Diffraction MCQ Level -2 - Question 4

Determine the ratio of the wavelengths of two spectral lines if the second-order image of one line coincides with the third-order image of the other line, both lines being examined by means of the same grating.

Detailed Solution for Diffraction MCQ Level -2 - Question 4

The correct answer is: 3 : 2

Diffraction MCQ Level -2 - Question 5

A thin slit produces a fuzzy shadow because of.

Detailed Solution for Diffraction MCQ Level -2 - Question 5

The correct answer is: diffraction

Diffraction MCQ Level -2 - Question 6

A double-slit experiment is done in the usual way with 480-nm light and narrow slits that are 0.050 cm apart. At what angle to the straight-through beam will one observe (A) the third-order bright spot and (B) the second minimum from the central maximum?

Detailed Solution for Diffraction MCQ Level -2 - Question 6



 

Diffraction MCQ Level -2 - Question 7

How shall a diffraction pattern change when white light is used instead of a monochromatic light? 

Detailed Solution for Diffraction MCQ Level -2 - Question 7

When white light is used instead of monochromatic light, then the central maximum remains white as all seven wavelengths meet there in the same phase. The first minimum and second maximum will be formed by violet color due to its shortest wavelength while the last is due to the red color as it has the longest wavelength. Thus, a colored pattern is observed. However, after the first few colored bands, the clarity of the band is lost, due to overlapping.

Diffraction MCQ Level -2 - Question 8

A spectrum of the Sun’s radiation in the infrared region is produced by a grating. What is the wavelength being studied, if the infrared line in the first order occurs at an angle of 25.0° with the normal, and the fourth-order image of the hydrogen line of wavelength 656.3 nm occurs at 30.0°?

Detailed Solution for Diffraction MCQ Level -2 - Question 8




Diffraction MCQ Level -2 - Question 9

Green light of wavelength 500 nm is incident normally on a grating, and the second- order is diffracted 32.0° from the normal. How many lines/cm are marked on the grating?

Detailed Solution for Diffraction MCQ Level -2 - Question 9

The correct answer is: 5.30 x 10lines/cm

Diffraction MCQ Level -2 - Question 10

What is the effective distance between the source of light and the screen in Fraunhofer Diffraction? 

Detailed Solution for Diffraction MCQ Level -2 - Question 10

In Fraunhofer Diffraction, the source of light and the screen are effectively placed at infinite distance. Two convex lenses are used for achieving such a condition. Thus, the incident waveform is plane and the secondary wavelets are in the same phase at every point in the plane of the aperture.

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