How Does Diffraction in Water Affect Light Angles Compared to Air?

AI Thread Summary
Diffraction experiments with a plane grating submerged in water produce different light angles compared to air due to changes in the wavelength of light. As light enters water, its speed decreases, leading to a shorter wavelength while the frequency remains constant. This change in wavelength affects the diffraction equations, specifically d sin(θ) = mλ and a sin(θ) = mλ, resulting in altered angle values for diffraction patterns. Consequently, the angles of diffracted light become wider or narrower when compared to those in air. Understanding these principles is crucial for analyzing light behavior in different mediums.
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Homework Statement



Hi

Could someone explain to me... if a diffraction experiment that had a plane grating on it was submerged into water...why the diffracted light would produce extra angles that are wider and narrower than if the experiment had been carried in air?

Homework Equations



Snells law?

The Attempt at a Solution


Does it have something to do with refraction?

I would really appreciate an explanation, thanks.
 
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assuming that the frequency of the light being used does not change in or out of the water then the wavelength must change as a result of the differing speeds of light. i.e:

frequency = velocity / wavelength (\lambda)

so, solving for \lambda, \lambda = v/f.

in a vacuum (or near vacuum, i.e. air) v = c. However, in water v = c/~1.3, resulting in a \lambda which is significantly different.

so, your diffraction equations:

d sin (\theta) = m \lambda, and a sin(\theta) = m\lambda

are now using significantly different values, resulting in significantly different values for \theta.
 
Thank you so much.
 
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