Given, for H-atom, `bar nu = R_H [1/n_1 ^2 - 1/n_2 ^2]`. Select the correct options regarding this formula for Balmer series.
1. `n_1 = 2`
2. Ionization energy of H atom can be calculated from above formula.
3. `lambda_max` is for `n_2 = 3`
If `lambda` decreases then spectrum lines will converse.

The ionization energy of H atom is x kJ. The energy required for the electron to jump from n = 2 to n = 3 will be:

For balmer series in the spectrum of atomic hydrogen the wave number of each line is given by bar(V)=R_(H)(1)/(n_(1)^(2))-(1)/(n_(2)^(2)) where R_(H) is a constant and n_(1) and n_(2) are integers which of the following statement (S) is / are correct 1 as wavelength decreases the lines in the series converge 2 The integer n_(1) is equal to 2 3 The ionization energy of hydrogen can be calculated from the wave number of these lines 4 The line of longest wavelength corresponds to n_(2)=3

For balmer series in the spectrum of atomic hydrogen the wave number of each line is given by bar(V) = R[(1)/(n_(1)^(2))-(1)/(n_(2)^(2))] where R_(H) is a constant and n_(1) and n_(2) are integers. Which of the following statements (s), is (are correct) 1. As wave length decreases the lines in the series converge 2. The integer n_(1) is equal to 2. 3. The ionisation energy of hydrogen can be calculated from the wave numbers of three lines. 4. The line of shortest wavelength corresponds to = 3.

The first line in Balmer series corresponds to n_1 = 2 and n_2 = 3 and the limiting line corresponds to n_1 = 2 and n_2 = oo . Calculate the wavelengths of the first and limiting lines in Balmer series.

What are the values of n_(1) and n_(2) respectively for H_(B) line in the Lyman series of hydrogen atom spectrum?

Assertion : For Balmer series of hydrogen spectrum, the value n_(1)=2 and n_(2)=3,4,5 . Reason : The value of n for a line in Balmer series of hydrogen spectrum having the highest wave length is 4 and 6 .