Question about a double-slit experiment

AI Thread Summary
The discussion centers on a double-slit experiment where a plastic sheet with an index of refraction of 1.6 causes the center of the screen to appear dark instead of light when illuminated by monochromatic light at a wavelength of 586 nm. This indicates that destructive interference is occurring, necessitating a phase difference of 180 degrees between the light passing through the plastic and the unaffected light. The phase difference is influenced by the thickness of the plastic, the index of refraction, and the change in wavelength of light within the material. To determine the minimum thickness of the plastic, one must calculate the velocity of light in the plastic and how the wavelength is altered due to the index of refraction. Understanding these relationships is crucial for solving the problem effectively.
Nivlac2425
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Homework Statement



A sheet of plastic, n=1.6, covers the entrance of one slit of a double-slit. When the double-slit is illuminated by monochromatic light with wavelength = 586 nm, the center of the screen on the other side of the double-slit appears dark rather than light. What is the minimum thickness of this sheet of plastic?


Homework Equations





The Attempt at a Solution



I know that in order for the bright area on the screen to be dark instead of light, destructive interference must be occurring.
I can also find the velocity, v, of the light in the plastic with the equation n=c/v
 
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You can also find the phase difference in the light between the two slits. You need equations. Maybe read the section in your book about the "Double Slit Experiment".
 
To have destructive interference, the light would have to have a 180degree phase difference right? But how does the thickness of the plastic affect the phase difference of the light in respect to the unaffected light?

Thanks
 
Nivlac2425 said:
But how does the thickness of the plastic affect the phase difference of the light in respect to the unaffected light?
Compare the phase shift of light going through a thickness of plastic versus light going through the same thickness of air (or vacuum). Hint: Consider how the wavelength changes in the plastic.
 
The wavelength is decreased in the plastic, but by how much? Thickness probably affects that, but what else, the index of refraction? It would need a net phase change of 180 degrees to cause destructive interference.

Thanks
 
The wavelength of light in a material depends on the material's index of refraction. The phase change in passing through the material depends on the material's thickness and the wavelength of light in the material.
 
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