Minimum angular separation for viewing stars

AI Thread Summary
The discussion revolves around determining the minimum angular separation for resolving two stars using the Rayleigh criterion, expressed as θ=(1.22*λ)/D. Participants attempted to solve the problem using typical values for wavelength (λ) and aperture diameter (D), but their estimates, such as 1.34 x 10^-4 radians, were incorrect. There is confusion regarding the best resolution of the human eye, stated as 5e-4 rad, and how it relates to the problem. The conversation emphasizes the need to consider diffraction effects and the possibility of treating stars as diffraction points, while also expressing frustration over the lack of clear guidance in the problem statement. The participants are encouraged to explore different approaches and values to arrive at the correct answer before the deadline.
grouper
Messages
52
Reaction score
0

Homework Statement



What is the minimum angular separation an eye could resolve when viewing two stars, considering only diffraction effects?

Homework Equations



Rayleigh criterion: θ=(1.22*λ)/D

The Attempt at a Solution



This problem doesn't give very much to go on so I think there's a trick I'm missing. I tried estimating using λ=550 nm and D≈5.0 mm (which I got from the problem just before it), but this was incorrect. Our book also states that the best resolution of the human eye is 5e-4 rad, although I'm not sure how they came by this number and it is not the correct answer. I'm not really sure where to go with this one though, especially given so little information.
 
Physics news on Phys.org
what did you get in your estimate?
I got 1.34 x 10^-4 radians
 
That is what I got as well but that is not the correct answer. Perhaps I should have included the following equations as well (derived from Rayleigh):

circular aperture diffraction:

dark rings: sinθ=1.22*(λ/D) or 2.23*(λ/D) or 3.24*(λ/D), etc.

bright rings: sinθ=1.63*(λ/D) or 2.68*(λ/D) or 3.70*(λ/D), etc.

Still doesn't help much though because it yields the same estimates. This problem must not be looking for estimates. I think it has something to do with treating the stars like diffraction points but I'm not really sure if that's correct or how to do that.
 
I can't see anything wrong with the way we have worked it out... it is a standard textbook exercise.
What has been given as the 'correct answer'?
 
It's an online thing so it tells me when I get it wrong but I can't see the right answer unless I want to give up and lose that point. I'll think about it some more.
 
could you get the correct answer by using different (but reasonable) values for λ and D?
 
No, I tried that. I don't think estimation is what this problem is getting at. There's got to be some way to tease some of the variables out; perhaps by assuming the distance to be infinity, even though that's not correct. I'll keep playing around with it; it's due this weekend.
 

Similar threads

How to find the minimum angular resolution?
Replies
3
Views
2K
Angular Separation of Stars: Min Resolved w/ Diffraction Effects
Replies
3
Views
4K
What Is the Smallest Angular Separation the Human Eye Can Resolve?
Replies
1
Views
3K
Resolution of distant light sources
Replies
2
Views
7K
Rayleigh criterion (two wavelengths) + diffraction grating
Replies
4
Views
4K
Can the Hubble telescope measure the diameter of Betelgeuse?
Replies
4
Views
1K
What Is the Smallest Spot Diameter the Human Eye Can Detect?
Replies
4
Views
5K
Angular resolution of microscope
Replies
2
Views
1K
Slit Width & Single Slit Diffraction
Replies
3
Views
2K
Rayleigh criterion and circular apertures- check my work?
Replies
1
Views
6K

Hot Threads

Recent Insights

Back
Top