In hydrogen atom, the energy of second shell `e^(Θ`

Energy of an electron in the second orbit of hydrogen atom is E and the energy of electron in 3rd orbit of He will be

For an electron in the second orbit of Bohr's hydrogen atom, the moment of linear momentum is ......

If 13.6 eV energy is required to ionize the hydrogen atom, then the energy required to remove an electron from

If 13.6 eV energy is required to ionized the hydrogen atom, then the energy required to remove an electron from n = 2 is

The energy of hydrogen atom in the nth orbit is En, then the energy in the nth orbit of single ionised helium atom is

Consider a hydrogen-like atom whose energy in nth excited state is given by E_(n) = (13.6 Z^(2))/(n^(2)) When this excited makes a transition from excited state to ground state , most energetic photons have energy E_(max) = 52.224 eV . and least energetic photons have energy E_(max) = 1.224 eV Find the atomic number of atom and the intial state or excitation.

In the hydrogen atom, if the reference level of potential energy is assumed to be zero at the ground state level. Choose the incorrect statement.

To excite the hydrogen atom from its ground state to second excited state…. eV energy is required.

In any Bohr orbit of the hydrogen atom, the ratio of kinetic energy to potential energy of the electron is ......

If 13.6 eV energy is required to ionized the hydrogen atom then , then the energy required to remove an electron from n = 2 is