A hydrogen atom rises from its n=1 state to the n=4 state by absorbing energy . If the potential energy of the atom in the n=1 state by -13.6 eV ,then calculate the
(ii) energy absorbed by the atom in transition

A hydrogen atom rises from its n=1 state to the n=4 state by absorbing energy . If the potential energy of the atom in the n=1 state by -13.6 eV ,then calculate the (i) potential energy in n=4 state

A hydrogen atom rises from its n=1 state to the n=4 state by absorbing energy . If the potential energy of the atom in the n=1 state by -13.6 eV ,then calculate the wavelength of emitted radiation if the atom returns to its original state

The total energy of an electron in the ground state , of hydrogen atom is

It the 1st ionisation energy of H atom is 13.6 eV, then the 2nd ionisation energy of the atom is-

Energy in the second energy state of hydrogen atom is E_2 . Then

It the energy of 1st Bohr orbit be 13.6eV of a hydrogen atom, then calculate the energy for 2nd orbit in Joule.

If the energy of first Bohr's orbit is -13.58 eV of a hydrogen atom, calculate the energy of third Bohr's orbit of that atom.

If the energy of first Bohr's orbit is - 13.58 eV of a hydrogen atom calculate the energy of third Bohr's orbit of that atom.

In the Bohr of the hydrogen atom, what is the ratio of the kinetic energy to the total energy of the electron in any quantum state ?

If ionising energy of ‘H’ atom is 13.6 eV, then what is the second ionising energy of He?2