In a double-slit experiment, if the central diffraction peak contains 13 interference fringes, how many fringes are contained within each secondary diffraction peak (between m = + 1 and + 2 in Dsinθ=mλ). Assume the first diffraction minimum occurs at an interference minimum. Express your answer as an integer.

Question

Physics

Jaylen Cooley

2 September, 01:20

In a double-slit experiment, if the central diffraction peak contains 13 interference fringes, how many fringes are contained within each secondary diffraction peak (between m = + 1 and + 2 in Dsinθ=mλ). Assume the first diffraction minimum occurs at an interference minimum. Express your answer as an integer.

+5

Answers (1)

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Juliet Benitez · Answer 1

Width of central diffraction peak is given by the following expression

Width of central diffraction peak = 2 λ D / d₁

where d₁ is width of slit and D is screen distance and λ is wave length.

Width of other fringes become half, that is each of secondary diffraction fringe is equal to

λ D / d₁

Width of central interference peak is given by the following expression

Width of each of bright fringe = λ D / d₂

where d₂ is width of slit and D is screen distance and λ is wave length.

Now given that the central diffraction peak contains 13 interference fringes

so (2 λ D / d₁) / λ D / d₂ = 13

then (λ D / d₁) / λ D / d₂ = 13 / 2

= 6.5

no of fringes contained within each secondary diffraction peak = 6.5