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Chapter 27: Q13PE (page 997)

What is the highest-order maximum for 400-nm light falling on double slits separated by 25.0 µm?

Short Answer

Expert verified

The Highest-order maximum for 400-nm light falling on double slits separated by 25.0 µm is $^{62}$ .

Step by step solution

01

Given data

The wavelength of the violet light is $λ = 400 nm (\frac{10^{- 9} m}{1 nm}) = 4.0 \times 10^{- 7} m$

The separation between the two slits is $d = 25 μm (\frac{10^{- 6} m}{1 nm}) = 2.5 \times 10^{- 5} m$

02

Finding the highest-order maximum

A formula for the angle of the $m^{th}$ -order maximum can be expressed as,

$dsin θ = mλ . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . (1)$

The highest order occurs when $^{\sin θ = 1}$ .

Therefore, the substitute for these values in equation (1) will give,

$d = mλ m = \frac{d}{λ} m = \frac{2.5' 10^{- 5} m}{4.0' 10^{- 7} m} m = 62.5$

Therefore, we will get a maximum order of $^{m : 62}$

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Most popular questions from this chapter

(a) How wide is a single slit that produces its first minimum for \({\rm{633 - nm}}\)light at an angle of \({\rm{28}}{\rm{.0}}^\circ \)? (b) At what angle will the second minimum be?

What is the advantage of a diffraction grating over a double slit in dispersing light into a spectrum?

(a) Calculate the angle at which a 2.00-µm -wide slit produces its first minimum for 410-nm violet light. (b) Where is the first minimum for 700-nm red light?

No light passes through two perfect polarizing filters with perpendicular axes. However, if a third polarizing filter is placed between the original two, some light can pass. Why is this? Under what circumstances does most of the light pass?

Calculate the wavelength of light that produces its first minimum at an angle of $36 . 9^{°}$ when falling on a single slit of width \({\rm{1}}{\rm{.00 \mu m}}\).

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