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

If first ionisation potential of a hypothetical atom is 16 V , then the first excitation potential will be :

Minimum excitation potential of Bohr's first orbit hydrogen atom is

If first excitation potential of a hydrogen-like atom is V electron volt, then the ionization energy of this atom will be:

If the I excitation potential of a hypothetical H-like is 162 V, then the value of II excitation energy is about :

The energy levels of a hypothetical one electron atom are shown in figure Find the ionization 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 hypotherical one electron atom are shown in figure Find the excitation potential for the state n = 3 .

The ratio of the wave number corresponding to the 1^(st) line of Lyman series of H- atom and 3^(rd) line of Pashcan series of a hydrogen like sample is 9:16 . Then find the third excitation potential in terms of volt for this H- like samples.

If the first excitation energy of a hydrogen - like atom is 27.3 eV , then ionization energy of this atom will be

If the binding energy of 2nd excited state of a hypothetical H-like atom is 12 eV, then the Correct option is/are :