In the nth orbit, the energy of an electron `E_(n)= -( 13.6)/(n^(2)) eV` for hydrogen atom. The energy rquired to take the electron from first orbit to second orbit will be

In the nth orbit, the energy of an electron E_(n)= -( 13.6)/(n^(2)) eV for hydrogen atom. The energy required to take the electron from first orbit to second orbit will be

In the nth orbit, the energy of an electron En = -13.6 / n^2 eV hydrogen atom. The energy required to take the electron from first orbit to second orbit will be

The energy of an electron in the nth orbit of hydrogen atom is (-13.6 eV)/n^2) . The energy required to raise an electron form the 1st Bohr orbit to the 2nd orbit in eV is

Energy of the electron in nth orbit of hydrogen atom is given by E_(n) =-(13.6)/(n^(2))eV . The amount of energy needed to transfer electron from first orbit to third orbit is

Energy of the electron in nth orbit of hydrogen atom is given by E_(n) =-(13.6)/(n^(2))eV . The amount of energy needed to transfer electron from first orbit to third orbit is

Energy of an electron in the nth orbit hydrogen atom is given by E_n = - (13.6)/(n^2) eV How much energy is required to take an electron from the ground state to the first excited state?

The energy of an electron in the nth Bohr orbit of hydrogen atom is