How to Calculate the Minimum Number of Lines to Resolve Sodium Spectrum Lines?

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Homework Help Overview

The discussion revolves around calculating the minimum number of lines required in a diffraction grating to resolve two closely spaced sodium spectrum lines at wavelengths 589.0 nm and 589.6 nm. The subject area is optics, specifically focusing on diffraction and resolving power.

Discussion Character

  • Exploratory, Assumption checking, Problem interpretation

Approaches and Questions Raised

  • Participants discuss the concept of resolving power and its relation to the number of slits in a grating. There are questions about the necessary calculations and the importance of showing prior effort before seeking help.

Discussion Status

Some participants have provided guidance on the relationship between resolving power and the number of slits, while others emphasize the importance of demonstrating initial attempts. The discussion includes varied interpretations of the problem and the requirements for resolution.

Contextual Notes

There is a mention of a laboratory manual that may contain relevant information, indicating that participants may be working under specific educational constraints or guidelines.

Arowana
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Hi, i exam is coming up in a week and i have no clue so wat ever on how to solve this question.
How do i calculate the minimum number of lines?

What i need to answer to have full marks??

Q:

The Sodium vapor spectrum contains two bright yellow lines which have almost the same
wavelength (589.0 nm and 589.6 nm). Calculate the minimum number of lines required
in a grating which can resolve these lines in the second order.
:(

if you have some spare time, please help me out.
 
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You know that the resolving power is given by R = \frac{\lambda}{\Delta\lambda}. But we also have the diffraction law which states a\sin{\theta} = m(\lambda + d\lambda) so R = m N where m is the order of the diffraction and N the total number of slits in the grating. So what you want to do is to first calculate the resolving power, and then just divide by the diffraction order to obtain N :wink:
 
Arowana, you are supposed to show your effort before asking for help !

Pietjuh, please require that students asking for help first show what they've tried.

And to both of you, please read the posting guidelines.
 
THanks Pietjuh , and sorry for getting you in trouble.
 
Arowana, try looking at your laboratory manual Experiment 44, Diffraction Grating.
 

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