Ionization energy of `He^(+)` ion at minimum energy postion is

Ionization energy of He^(+) ion at minimum energy position is

The ratio of the third ionization energy of lithium and ionization energy of H atom is of H-atom and that of Li^(+2) ion is:

If the ionization energy of He^(+) is 54.4 eV then

The work function of the metal A is equal to the ionization energy of the hydrogen atom in the first excited state. The work function of the metal B is equal to the ionization energy of He^+ ion in the second orbit. Photons of the same energy E are incident on both A and B the maximum kinetic energy of photoelectrons emitted from A is twice that of photoelectrons emitted from B. Value of E (in eV) is

The ionization energy of He^(+) is x times that of H. The ionization energy of Li^(2+) is y times that of H. find |y-x|

the ionization energy of Li ^(++) is equal to

1 mol of He^(+) ion is excited. Spectral analysis showed existence of 50% ions in 3rd level, 25% in 2nd level and remaining 25% in ground state. Ionization energy of He^(+) is 54.4 eV , calculate total energy evolved when all the ions retirn ground state.

Ionization energy is influenced by :

(a)Use the Bohr model to determine the ionization energy of the He^+ ion, which has a single electron. (b)Also calculate the maximum wavelength a photon can have to cause ionization.

If the ionization energy of He^(+) is 19.6xx10^(-18) J per atom then the energy of Be^(3+) ion in the second stationary state is :