How to Solve Thin Film Interference with White Light?

AI Thread Summary
A 360 nm thick oil film on water reflects specific wavelengths of white light, with the indices of refraction for oil and water being 1.50 and 1.33, respectively. The relevant formula for calculating the wavelengths is 2L = ((m + 1/2) * lambda) / n, where m is a positive integer. The challenge arises from determining which refractive index to use for calculations involving both oil and water. The phase change upon reflection and the path difference between the two reflected waves must be considered to solve for the wavelengths. The correct answer to the problem is identified as option B, with wavelengths closest to 430 nm and 720 nm.
nabilsaleh
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Homework Statement



A 360 nm thick oil film floats on the surface of the water. The indices of refraction of the oil and the water are 1.50 and 1.33, respectively. The surface of the oil is illuminated from above at normal incidence with white light. The two wavelengths of light in the 400 nm to 800 nm wavelength band that are most strongly reflected, in nm, are closest to:

A) 410 and 700
B) 430 and 720
C) 450 and 740
D) 470 and 760
E) 490 and 780

this question came several times on previous exams but i just can't figure out how to solve it and there is no solution online...the answer though is B!


Homework Equations




i'm guessing that i should be using this formula:

2L=((m+1/2)*lamda)/n

lamda is the wavelength
n is the index or refraction


The Attempt at a Solution

 
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The formula is all right, just use it. Find the wavelength. You know the layer thickness, the refractive index of oil, and that m is positive integer. Start with m=1.

ehild
 
ehild said:
The formula is all right, just use it. Find the wavelength. You know the layer thickness, the refractive index of oil, and that m is positive integer. Start with m=1.

ehild

but I have water AND oil ,, I've never done a problem like this ... it's confusing which index to use and when to use it.
 
ehild said:
The formula is all right, just use it. Find the wavelength. You know the layer thickness, the refractive index of oil, and that m is positive integer. Start with m=1.

ehild

i'm substituting the numbers into the equation but I'm getting results that has nothing to do with the given range :( PLEASE HELP! at least show me how to get one of the wavelengths!
 
One part of the light wave reflects from the upper surface of the oil, other part enters the oil film, reaches the interface with water, and reflects from there. The reflected wave travels through the oil film again, and steps out into air at the front surface. The phase of this wave changes by 4pi n L. It interferes with the directly reflected wave, which suffered a pi phase change upon reflection. The difference between the waves is only that one traveled in oil. You need to use the refractive index of oil and the thickness of the oil film L.

ehild.
 
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