The energy levels of a hypotherical one electron atom are shown in figure

Find the excitation potential for the state `n = 3`.

The energy levels of a hypothetical one electron atom are shown in figure Find the ionization potential of the atom.

The energy levels of a hypothetical one electron atom are shown in the figure. (a)Find the ionization potential of this atom. (b) Find the short wavelength limit of the series terminating at n=2 (c ) Find the excitaion potential for the state n=3. (d) find wave number of the photon emitted for the transiton n=3 to n=1 prop _______________ 0eV n=5 __________________ -0.80 eV n=4 ______________ -1.45 eV n=3__________________ -3.08 eV n=2_______________ -5.30 eV n=1 ____________________ -15.6 eV .

The energy levels of a hypotherical one electron atom are shown in figure Find the wave number of the photon emitted for the transition n = 3 to n = 1

The energy levels of a hypotherical one electron atom are shown in figure Find the short wavelength limit of the series terminating at n = 2 .

The energy levels of a hypotherical one electron atom are shown in figure If an electron with initial kinetic energy 6 eV is to interact with this hypothetical atom , what minimum energy will this electron carry after interaction?

The energy levels of a hypotherical one electron atom are shown in figure The initial kinetic energy of an electron is 11 eV and it interact with the above said hypothetical one electron atom , the minimum energy carried by the electron after interaction is

The first excitation potential of a hypothetical hydrogen- like atom is 15 V . Find the third excitation potential of the atom.

The energy level excitation potential of a hydrogen -like atom is shown in Figure a Find the value of Z b If initially the atom is in the ground state ,then (i) determine its excitation potential, and m (ii) determine its ionization potential. c Can it absorbe a photom of 42 eV ? d Can it absorbe a photom of 56 eV ? e Calculate the radius of its first Bohr orbit. f Calculate the kinectic and potential energy of an electron in the first orbit.

The energy levels of a hypothetical one electron atom are given by E_n = -(18.0)/(n^2) eV where n = 1,2,3,…. (a) Compute the four lowest energy levels and construct the energy levels diagram. (b) What is the first excitation potential (c ) What wavelength (Å) can be emitted when these atoms in the ground state are bombarged by electrons that have been accelerated through a potential difference of 16.2 V? (e) what is the photoelectric threshold wavelength of this atom?

The energy levels of an atom are as shown in figure . Which one of those transition will result in the emission of a photon of wavelength 275 nm ?