Inteference Fringes of Double Slit Experiment in Water

AI Thread Summary
In a double-slit experiment conducted in water, the wavelength of light decreases due to the water's index of refraction of 1.33, resulting in λwater = λair / 1.33. This reduction in wavelength leads to the interference fringes being more closely spaced than in air. The correct formula for calculating the fringe spacing in water requires using the wavelength in water, not air. The confusion arose from misapplying the wavelength values, but clarification helped resolve the issue. The final conclusion is that the interference pattern in water shows closer fringes due to the shorter wavelength.
mitchy16
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Homework Statement


Suppose a double-slit experiment is immersed in water (with an index of refraction of 1.33). When in the water, what happens to the interference fringes?

Homework Equations


λ = λ0 / n
y = (λmL) / d
d = distance between slits
L = distance to viewing screen
n = index of refraction

The Attempt at a Solution


So the wavelength in the water would be:
λwater = λair / 1.33
1.33λwater = λair

And then:
ywater = ( (m) (1.33λwater) (L) / d )

The answer is supposedly they will be more closely spaced, but I am not sure why that is correct because wouldn't the distance be 1.33 times that of the original distance?
 
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mitchy16 said:
λwater = λair / 1.33
According to this equation the wavelength in water is less than the wavelength in air, no?
 
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mitchy16 said:
ywater = ( (m) (1.33λwater) (L) / d )
What you're saying here is the same as ywater = ( (m) (λair) (L) / d ).

If you want the value of y in water, you need to use the value of λ in water, instead.
 
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jtbell said:
What you're saying here is the same as ywater = ( (m) (λair) (L) / d ).

If you want the value of y in water, you need to use the value of λ in water, instead.
Yes! Thank you, I realize my mistakes now! I retried and it worked out, I appreciate the help!
 
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