The energy levels of a hypotherical one electron atom are shown in figure

Find the excitation potential for the state `n = 3`.

The energy levels of a hypotherical one electron atom are shown in figure Find the ionization potential of the atom.

The energy levels of a hypothetical one electron atom are shown in the figure. (a)Find the ionization potential of this atom. (b) Find the short wavelength limit of the series terminating at n=2 (c ) Find the excitaion potential for the state n=3. (d) find wave number of the photon emitted for the transiton n=3 to n=1 prop _______________ 0eV n=5 __________________ -0.80 eV n=4 ______________ -1.45 eV n=3__________________ -3.08 eV n=2_______________ -5.30 eV n=1 ____________________ -15.6 eV .

The energy levels of a hypotherical one electron atom are shown in figure Find the wave number of the photon emitted for the transition n = 3 to n = 1

The energy levels of a hypotherical one electron atom are shown in figure Find the short wavelength limit of the series terminating at n = 2 .

The energy levels of a hypotherical one electron atom are shown in figure If an electron with initial kinetic energy 6 eV is to interact with this hypothetical atom , what minimum energy will this electron carry after interaction?

The energy levels of a hypotherical one electron atom are shown in figure The initial kinetic energy of an electron is 11 eV and it interact with the above said hypothetical one electron atom , the minimum energy carried by the electron after interaction is

The energy-level scheme for the hypothetical one electron element Bansalium is shown in figure. The potential energy is taken to be zero for an electron at an infinite distance from the nucleus. A sample of atoms Bansalium are in all the 3 excited state shown above. What is the possible wavelength that can be emitted by atom in visible range?

The energy-level scheme for the hypothetical one electron element Bansalium is shown in figure. The potential energy is taken to be zero for an electron at an infinite distance from the nucleus. If a Bansalium atom is in ground state, which of the following photons cannot excite the atom to a higher state?

The energy levels of a hypothetical one electron atom are given E_(n) = - (18.0)/(n^(2)) eV , where n = 1,2,3 … a Cumpete the four lowest energy levels and construct the energy level diagram . b What is the excitation potential of the state n = 2 ? c What wavelengths (Å) can be emitted when these atoms in the ground stste are bombarded by electron that have been accelerate through a potential difference of 16.2 V d If these atoms are in the ground state , can they absorb radiation having a wavelength of 2000 Å ? e what is the photoclectric threshold wavelength of this atom ?