In a hydrogen like atom electron makes transition from an energy level with quantum number n to another with quantum number (n - 1). If `n gt gt 1,` the frequency of radiation emitted is proportional to

In a hydrogen like atom electron make transition from an energy level with quantum number n to another with quantum number (n - 1) if n gtgt1 , the frequency of radiation emitted is proportional to :

In a hydrogen atom the electron makes a transition from (n+1)^(th) level to the n^(th) level .If n gt gt 1 the frequency of radiation emitted is proportional to :

The number of orbitals in the quantum level n = 4 is

The maximum number of electrons that can have principal quantum number, n = 3, and spin quantum number m_(s) = - 1 /2, is

The maximum of electrons can have principal quantum number n = 3 and spin quantum number m_(s) = 1//2 is

What is the wavelength of light emitted when the electron of a hydrogen atom undergoes a transition from an energy level with n= 4 to an energy level with n = 2 ? .What is the colour corresponding to this wavelength ?

The maximum number of electrons can have principal quantum number n = 3 and spin quantum number m_(s) = 1//2 is

An electron in a hydrogen atom makes a transition n_1 to n_2 where n_1 and n_2 are principle quantum numbers of the states . Assume the Bohr's model to be valid , the frequency of revolution in initial state is eight times that of final state. The ratio n n_1/n_2 is

What are the values of principal quantum number (n) and azimuthal quantum number (l) for a 3d electron ?

The electron in a hydrogen atom at rest makes a transition from n = 2 energy state to the n = 1 ground state. find the energy (eV) of the emitted photon.