The energy required to ionise a hydrogen like ion in its ground state is 9 Rydbergs. What is the wavelength of the radiation emitted when the electron in this ion jumps from the second excited state to the ground state ?

The energy needed to detach the electron of a hydrogen like ion in ground state is a 4 Rydberg. (a) what is the wavelength of the radiation emitted when the electron jumps from the first excited state to the ground state? (b) What is the radius of the orbit for this atom?

The ionization energy of a hydrogen like bohr atom is 4 Rydbergs (i) What is the wavelength of the radiation emitted when the electron jumps from the first excited state to the ground state ?(ii) what is the radius of the orbit for this atom ?

The ionization energy of a hydrogen like Bohr atom is 5 Rydberg, (a) What is the wavelength of radiation emitted when the electron jumps from the first excited state to the ground state? (b) What is the radius of the first orbit for this atom? Given that Bohr radius of hydrogen atom = 5 xx 10^(-11) m and 1 Rydberg = 2.2xx10^(-18)J

When an electron in hydrogen atom is taken from fourth excited state to ground state

Energy required to ionise 1 mole of gaseous He^+ion present in its ground state is

The ionization energy of a hydrogen like Bohr atom is 4 Rydberg. If the wavelength of radiation emitted when the electron jumps from the first excited state to the ground state is N-m and if the radius of the first orbit of this atom is r-m then the value of (N)/(r )=Pxx10^(2) then, value of P . (Bohr radius of hydrogen =5xx10^(-11)m,1 Rydberg =2.2xx10^(-18)J )

The energy of a hydrogen like atom (or ion) in its ground state is -122.4 eV. It may be

Find the wavelength present in the radiation emitted when hydrogen atoms emitted to n = 3 states return to their ground state.

Energy required to ionise 2 mole of gaseous He^(+) ion present in its ground state is :

What is the ratio of minimum to maximum wavelength of radiation emitted by electron when it jump from as higher state to ground state in Li^(2+) ion ?