Energy of H-atom in the ground state is `-13.6eV`. Hence energy in the second excited state is

The energy of a hydrogen atom in the ground state is -13.6 eV. The energy of a He+ ion in the first excited state will be .....

The energy of hydrogen atom in its ground state is -13.6 eV . The energy of the level corresponding to the quantum number n = 5 is

The ground state energy of hydrogen atom is - 13.6 eV. When electron is in excited state its excitation energy is ......

The ionization energy for the hydrogen atom is 13.6 eV then calculate the required energy in eV to excite it from the ground state to 1^(st) excited state.

The ionization energy of the electron in the hydrogen atom in its ground state is 13.6 eV. The atoms are excited to higher energy levels to emit radiation of 6 wavelengths. During which of the following transitions will the maximum wavelength radiation be emitted ?

A photon of energy 12.09 eV is completely absorbed by a hydrogen atom initially in the ground state. The quantum number of excited state is

A hydrogen like atom (atomic number Z) is in a higher excited state of quantum number n. The excited atom can make a transition to the first excited state by successively emitting two photons of energy 10.2 eV and 17.0 eV, respectively. Alternatively, the atom from the same excited state can make a transition to the second excited state by successively emitting two photons of energies 4.25 eV and 5.95 eV, respectively Determine the values of n and Z. (lonization energy of H-atom = 13.6 eV)

The ratio of energies of electron in the first excited state to its second excited state in H-atom is ......

An hydrogen atom in its ground state absorbs 10.2 eV of energy. The orbital angular momentum is increased by…….js.