Double-Slit Arrangement With Plastic Sheet

AI Thread Summary
In a double-slit experiment, a transparent plastic sheet with a refractive index of 1.50 and a thickness of 0.0513mm is placed over one slit, causing a shift in the interference pattern's central maximum. The phase difference between the light waves passing through the two slits is affected by the additional optical path length introduced by the plastic. The effective path length for the wave passing through the plastic is increased due to the refractive index, leading to a path difference that can be calculated using the formula (nL - L). This phase shift results in the upward movement of the central maximum, which can be quantified as y'. Understanding these principles is crucial for solving the problem effectively.
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Homework Statement


Consider the double-slit arrangement shown in the figure below, where the separation d is 0.280mm and the distance L is 1.16m. A sheet of transparent plastic (n = 1.50) 0.0513mm thick (about the thickness of a piece of paper) is placed over the upper slit. As a result, the central maximum of the interference pattern moves upward a distance y'. What is y'?

Homework Equations


PD / d = xL
n = c/v

The Attempt at a Solution


I'm sorry. but I have absolutely no idea how to approach this. I've just been looking through my books and trying to find equations to plug the given information into, but no dice. Any help would be greatly, greatly appreciated. Thank you so much!
 
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The presence of the plastic sheet results in a additional phase shift of the light passing through the upper slit relative to the light passing through the lower slit.
This means that their phase difference has now changed.
 
How would I go about calculating that phase difference? Should I use the general wave equation?
 
Ellipses said:
How would I go about calculating that phase difference? Should I use the general wave equation?
The plastic adds to the effective path length (refractive index of plastic - index of air)*thickness.
 
When the light waves travel through an optically denser medium, they are slowed down - and so they travel more "cycles" (ie oscillate more cycles) in passing through that medium as compared to traveling the same distance in air.
Say I have two light waves initially in phase. One travels a distance L through air. The other travels the same distance L, but through a medium of refractive index n > 1. The effective optical length traveled by the second wave is in fact nL, and so there is a path difference of (nL-L) between the two waves.
 

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