Why Does Thin Film Oil Show Different Colors When Illuminated?

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Thin film oil exhibits different colors due to interference effects caused by varying thicknesses when illuminated by white light. At point A, there are no reflected colors due to destructive interference, where a phase change occurs at the air-oil interface but not at the oil-water interface, causing cancellation of light waves. At point B, the thickness of the oil allows for constructive interference, resulting in visible colors, such as blue, indicating that certain wavelengths are being reinforced. The phase difference between the reflected rays determines whether the interference is constructive or destructive, with constructive interference occurring when the phase difference is an integer multiple of 2π. Understanding these principles explains the observed color variations in thin films.
whitehorsey
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1. A thin film of oil (no = 1.50) with varying thickness floats on water (nw = 1.33). When it is illuminated from above by white light, the reflected colors are as shown in the figure. In air, the wavelength of yellow light is 580 nm.
a. Why are there no reflected colors at point A?
b. What is the oil's thickness t at point B?

oilfilm.png


3. a. Because it is a destructive interference? the reflected ray from air to oil (phase change) and oil to water (no phase change) so they cancel out?

b. Why is this one a constructive interference? I've read that because there is light it is always constructive but when its dark it is destructive is that true?
 
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whitehorsey said:
1. A thin film of oil (no = 1.50) with varying thickness floats on water (nw = 1.33). When it is illuminated from above by white light, the reflected colors are as shown in the figure. In air, the wavelength of yellow light is 580 nm.
a. Why are there no reflected colors at point A?
b. What is the oil's thickness t at point B?

View attachment 61552

3. a. Because it is a destructive interference? the reflected ray from air to oil (phase change) and oil to water (no phase change) so they cancel out?

The ray reflected from the oil-water interface travels across the oil layer and back, and its phase changes during that trip. By how much?

whitehorsey said:
b. Why is this one a constructive interference? I've read that because there is light it is always constructive but when its dark it is destructive is that true?

When two waves interfere the resultant intensity depends on the phase difference between them. How does the phase of a wave of wavelength λ change if it travels D distance?
The interference is destructive if the phase difference between two waves is odd number times pi. It is constructive in case it is integer number times 2pi.

ehild
 
whitehorsey said:
3. a. Because it is a destructive interference? the reflected ray from air to oil (phase change) and oil to water (no phase change) so they cancel out?
Yes. Though for full marks you'd need to articulate why a "phase change" and why "no phase change".

when its dark it is destructive is that true?
Yes, that explains why the thinnest region is black. Moving to an adjacent slightly less thin region, seen as blue, we can say it remains a region of destructive interference for most wavelengths, but the blue colour indicates that blue is starting to show constructive interference.
 
ehild said:
The ray reflected from the oil-water interface travels across the oil layer and back, and its phase changes during that trip. By how much?

It changes by 180 degrees. So that would cause the rays to cancel out.


NascentOxygen said:
Yes. Though for full marks you'd need to articulate why a "phase change" and why "no phase change".

Yes, that explains why the thinnest region is black. Moving to an adjacent slightly less thin region, seen as blue, we can say it remains a region of destructive interference for most wavelengths, but the blue colour indicates that blue is starting to show constructive interference.

Ah okay. But how does the thickness also tell you whether it is constructive or destructive?
 
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