Newton's Rings Problem: Determining Thickness of Film for 6250 A Light Rings

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Homework Help Overview

The problem involves determining the thickness of a film related to Newton's rings, specifically when illuminated with light at a wavelength of 6250 angstroms. The context centers around the interference patterns created by light reflecting off a hemispherical lens and a glass sheet.

Discussion Character

  • Exploratory, Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants discuss the relationship between the wavelength in angstroms and the required thickness of the film, questioning how to connect these concepts. There is also clarification sought regarding the nature of the "film" and its relevance to the problem.

Discussion Status

The discussion is ongoing, with participants exploring the connection between the wavelength and the thickness of the film. Some guidance has been provided regarding the use of odd multiples of half wavelengths for constructive interference, but no consensus has been reached on the exact approach to take.

Contextual Notes

There is some confusion regarding the definition of "film" in this context, as well as the specific equations needed to relate the wavelength to the thickness of the film. Participants are also navigating the implications of using angstroms as a unit of measurement.

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Homework Statement



If the apparatus for showing Newton's rings is illuminated with light at 6250 A (angstroms), what thickness of film underlies each of the first three light rings?

Homework Equations



2D (the thickness of the film) equals a multiple of 1/2 of a wavelength
1 angstrom = 1 x 10^-10 wavelength


The Attempt at a Solution



I can't see how the angstroms connect to the fact that the thickness must be a multiple of 1/2.
 
Last edited:
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Generally Newton's Rings are formed when light is reflected off of a hemispherical lens resting on a sheet of glass. So I don't know what you mean by "film"--there is a space between the lens and the glass sheet.

In any case, the phase difference (for constructive interference) must be an odd multiple of 1/2 wavelength, not just 1/2.
 
I apologize for not clarifying wavelength, but I intended to. As for the film, I believe it means some form of glass, but its not really relevant to the solution of my problem.
 
Do you still have a question?
 
Jason+Strife said:

Homework Statement



If the apparatus for showing Newton's rings is illuminated with light at 6250 A (angstroms), what thickness of film underlies each of the first three light rings?

Homework Equations



2D (the thickness of the film) equals a multiple of 1/2 of a wavelength
1 angstrom = 1 x 10^-10 wavelength


The Attempt at a Solution



I can't see how the angstroms connect to the fact that the thickness must be a multiple of 1/2.
Yes, I don't see a way to connect the 6250 angstroms and the fact that each wavelength must be a multiple of a half. There must be some equation I'm missing, but I just can't figure out the problem.
 
Jason+Strife said:
Yes, I don't see a way to connect the 6250 angstroms and the fact that each wavelength must be a multiple of a half.
That's not quite right.

6250 Angstroms is the wavelength; 2D must be an odd multiple of 1/2 wavelength.

An Angstrom is just a unit of length. 1 Angstrom [itex]= 10^{-10}[/itex] meters.
 
OK, but how can I use that information (the angstroms) to figure out the thickness for the first three light rings?
 
Jason+Strife said:
OK, but how can I use that information (the angstroms) to figure out the thickness for the first three light rings?
By setting 2D equal to the first three odd integer multiples of 1/2 wavelength. (Solve for D.)
 
Aha, thank you, I appreciate your help.
 

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