When an electron makes a transition from `(n+1)` state of nth state, the frequency of emitted radistions is related to n according to `(n gt gt 1)`:

When an electron makes transition from (n+1) state to n state the wavelength of emitted radiations is related to n (ngtgtgt1) according to lamdapropn^(x). What is the value of x ?

The electron in hydrogen atom jumps from n_2= 5 to n_1, = 1 . Name the series in which the frequency emitted lies.

The electron in hydrogen atom jumps from n_2= 4 to n_1 = 2 . Name the series in which the frequency emitted lies.

In a sample of excited hydrogen atoms electrons make transition from n=2 to n=1. Emitted quanta strike on a metal of work function 4.2eV. Calculate the wavelength in A associated with ejected electron having maximum kinetic energy

In the angular process an atom makes a transition to a lower state without emitting a photon. The excess energy is transferred to an outer electron which may be ejected by the atom. (This is called an Auger electron). Asusming the nucleus to be massive, calculate the kinetic energy of an n=4 Auger electron emitted by Chromium by absorbing the energy from a n=2 to n=1 transition.

The electron in a hydrogen atom make a transtion n_(1) rarr n_(2) where n_(1) and n_(2) are the priocipal quantum number of the two states . Assume the Bohr model to be valid . The time period of the electron in the initial state is eight time that in the final state . The possible values of n_(1) and n_(2) are