If the energy of electron in H atom is given by expression, `-1312//n^(2)"k J mol"^(-1)`, then the energy required to excite the electron from ground state to second orbit is:

If the energy of electron in H atom is given by expression - 1312 n^(2) kJ "mole"^(-1) then the energy required to excited the elcxtron from ground state to second orbit is

the energy required to excite an electron in hydrogen atom to its first excited state is

The energy ( in eV ) required to excite an electron from n = 2 to n = 4 state in hydrogen atom is

What is the energy required to remove an electron from second orbit of hydrogen atom ?

What is the energy required to remove an electron from second orbit of hydrogen atom ?

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

The ionisation enthalpy of hydrogen atom is 1.312 xx 10^6" J mol"^(-1) . The energy required to excite the electron in the atom from n = 1 to n = 2 is

If the binding energy of the electron in a hydrogen atom is 13.6 eV , the energy required to remove the electron from the first excited state of Li^(++) 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

The electron energy in hydrogen atom is given by E_(n)=-(2.18 xx 10^(-18))/(n^2) J . Calculate the energy required to remove an electron completely from the n=2 orbit. What is the longest wavelength of light in cm that can be used to cause this transition?