find the wave number of shortest wavelength In Balmer series (Note `n_(1) : =2 n_(2) = prop)`

Calculate the wave number for the longest wavelength transition in the Balmer series of atomic hydrogen

In terms of Rydberg constant R, the shortest wavelength in Balmer series of hydrogen atom spectrum will have wavelength

In this spectrum of Li^(2+) the difference of two energy level is 2 and sum is 4. Find the wavelength of photon for difference of these two energy state. (note n_(1) + n_(2) = 4 and n_(2) =2 so take n_(1) =1 and n_(2) =3

Find the ratio of series limit wavelength of Balmer series to wavelength of first time line of paschen series.

Given the value of Rydberg constant is 10^(7) m^(-1) the wave number of the last line of the Balmer series in hydrogen spectrum will be

As shown in figure waves with identical wavelengths and amplitudes and which are intially in phase travel through difference media. Ray 1 travels through air and Ray 2 through a transparent medium for equal length L, in four different situations. Rays reach a common point on the screen. The number of wavelengths in length L is N_(2) for Ray 2 and N_(1) for Ray 1. In the following table, values of N_(1) and N_(2) are given for all four situations. The order or the situations according to the intensity of the light at the common point in descending order is Situations 1 2 3 4 N_(1) 2.75 1.80 3.00 3.25 N_(2) 2.75 2.80 3.25 4.00

Find the sum to n terms of the series whose n^("th") term is n (n+3).