The resolution of diffraction grating increases as orders become higher. Imagine that there are two lines in the spectrum of a given atom, ?1=525 and ?2=548 nanometers. Given a diffraction grating with 3300 grooves/cm, find the angles corresponding to the maxima of ?1 and ?2 in the first order: ° and ° Find the difference between these angles: °. Now do the same for the second order: °, °, and °. What is the maximum order in which the longer wavelength can be observed?
The resolution of diffraction grating increases as orders become higher. Imagine that there are two lines in the spectrum of a given atom, ?1=525 and ?2=548 nanometers. Given a diffraction grating with 3300 grooves/cm, find the angles corresponding to the maxima of ?1 and ?2 in the first order: ° and ° Find the difference between these angles: °. Now do the same for the second order: °, °, and °. What is the maximum order in which the longer wavelength can be observed?
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The resolution of diffraction grating increases as orders become higher. Imagine that there are two lines in the spectrum of a given atom, ?1=525 and ?2=548 nanometers. Given a diffraction grating with 3300 grooves/cm, find the angles corresponding to the maxima of ?1 and ?2 in the first order: ° and °
Find the difference between these angles: °.
Now do the same for the second order: °, °, and °.
What is the maximum order in which the longer wavelength can be observed?
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