The wavelength of radiation emitted due to transition of electron from energy level E to zero is equal to `lamda`. The wavelength of radiation `(lamda_(1))` emitted when electronjumpsfrom energy level `(3E)/(2)` to zero will be :

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

Calculate the wavelength of radiation emited when an electron in a hydrogen atom makes a transition from an energy level with n = 3 to a level with n= 2

Two energy levels of an electron in an atom are separated by 2.3 eV. The frequency of radiation emitted when the electrons go from higher to lower level is

The wavelength of the radiation emitted with an electron jumps from the fourth orbit to the second orbit in an hydrogen atom is 20.36 cm. what is the wavelength of radiation emitted for the same transition in He^+ ?

Find the wavelength of radiation required to excite an electron in the ground levelll of Li^(2+) (z = 3) in the third energy level

Calculate the ratio of the frequencies of the radiation emitted due to transition of the electron in a hydrogen atom from its (i) second permitted energy level to the first level and (ii) highest permitted energy level to the second permitted level .

The wavelength of the first Balmer line caused by a transition from the n = 3 level to the n = 2 level in hydrogen is lamda_(1) . The wavelength of the line caused by an electronic transition from n = 5 to n = 3 is -