Ql: Compute the radiation frequency obtained from electron transition between two energy states (E4 and E1), if you know E. for carbon atom about -8 eV. Then Compute the energy separation of this transition. Finally compute the wavelength separation A2. It is allowed to use the hydrogen atom constants.
Ql: Compute the radiation frequency obtained from electron transition between two energy states (E4 and E1), if you know E. for carbon atom about -8 eV. Then Compute the energy separation of this transition. Finally compute the wavelength separation A2. It is allowed to use the hydrogen atom constants.
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![Ql: Compute the radiation frequency obtained from
electron transition between two energy states (E4 and
El), if you know E. for carbon atom about -8 eV.
Then Compute the energy separation of this
transition. Finally compute the wavelength separation
AA. It is allowed to use the hydrogen atom constants.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F04ef84a0-775c-475b-881a-08e022387750%2Fef31ed6e-039e-4c26-ab4a-118f9d153e8e%2Firufg0m_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Ql: Compute the radiation frequency obtained from
electron transition between two energy states (E4 and
El), if you know E. for carbon atom about -8 eV.
Then Compute the energy separation of this
transition. Finally compute the wavelength separation
AA. It is allowed to use the hydrogen atom constants.
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