You discover a new type of microscopic, atom-like object. The energy levels for this object are given by E, = 1, where E, = -28.0 ev. For this new object, determine the following. (a) excitation energy (in ev) of the object in the third excited state ev (b) amount of energy (in ev) required to cause an object in the third excited state to become unbound ev (c) maximum number of different energy photons emitted as the object de-excites from the third excited state to the ground state (assuming all available transitions are possible)

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You discover a new type of microscopic, atom-like object. The energy levels for this object are given by E, =2, where E, = -28.0 ev. For this new object, determine the following.
(a) excitation energy (in eV) of the object in the third excited state
ev
(b) amount of energy (in ev) required to cause an object in the third excited state to become unbound
ev
(c) maximum number of different energy photons emitted as the object de-excites from the third excited state to the ground state (assuming all available transitions are possible)
(d) maximum and minimum wavelength photons (in nm) emitted when the object de-excites from the third excited state to the ground state
nm
Amin
nm
Transcribed Image Text:You discover a new type of microscopic, atom-like object. The energy levels for this object are given by E, =2, where E, = -28.0 ev. For this new object, determine the following. (a) excitation energy (in eV) of the object in the third excited state ev (b) amount of energy (in ev) required to cause an object in the third excited state to become unbound ev (c) maximum number of different energy photons emitted as the object de-excites from the third excited state to the ground state (assuming all available transitions are possible) (d) maximum and minimum wavelength photons (in nm) emitted when the object de-excites from the third excited state to the ground state nm Amin nm
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