The transition of an electron from `n_(2)=5,6`….. To `n_(1) =4` gives rise to

The atomic spectrum of Li^(2+) arises due to the transition of an electron from n_(2) to n_(1) level. If n_(1) +n_(2) is 4 and n_(2)-n_(1) is 2, calculate the wavelength (in nm) of the transition for this series in Li^(2+)

The atomic spectrum of Li^(+2) ion arises due to the transition of an electron from n_(2) to n_(1) if n_(1) +n_(2)=4 and (n_(2)-n_(1)) =2 then the wavelength of 3^(rd) line of this series in Li^(+2) ion will be

In the spectrum of singly ionized helium , the wavelength of a line abserved is almost the same as the first line of Balmer series of hydrogen . It is due to transition of electron from n_(1) = 6 to n_(2) = ^(''**'') . What is the value of (''**'') .

The transition of electron from n = 3 to n = 1 in H atom produces

How many spectral lines are seen for hydrogen atom when electron jump from n_(2) = 5 to n_(1) = 1 in visible region ?

The vale of wavelength radiation emitted due to transition of electrons from n=4 to n=2 state in hydrogen atom will be

When a transition of electron in He^(+) takes place from n_(2)" to "n_(1) then wave number in terms of Rydberg constant R will be ("Given "n_(1)+n_(2)=4, n_(2)-n_(1)=2)

The Balmer series in the hydrogen spectrum corresponds to the transition from n_(1)=2 to n_(2)=3,4 ........ This series lies in the visible region. Calculate the wave number of line associated with the transition in Balmer series when the electron moves to n=4 orbit. (R_(H)=109677cm^(-1))

Electronic transition in He^(+) ion takes from n_(2) " to " n_(1) shell such that : 2n_(2)+3n_(1)=18 2n_(2)+3n_(1)=6 What will be the total number of photons emitted when electrons transit to n_(1) shell?