Molecules from a parallel universe may have different masses than those in our own, but they obey the same 3-D quantum mechanical behavior. Treat a molecule with atoms of mass 1.165 amu and 18.642 amu and a bond length of 1.28 Å as a 3-D rigid rotor, and determine its / = 5 energy eigenvalue.

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Molecules from a parallel universe may have different masses than those in our own, but they obey
the same 3-D quantum mechanical behavior. Treat a molecule with atoms of mass 1.165 amu and
18.642 amu and a bond length of 1.28 Å as a 3-D rigid rotor, and determine its / = 5 energy
eigenvalue.
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Transcribed Image Text:Molecules from a parallel universe may have different masses than those in our own, but they obey the same 3-D quantum mechanical behavior. Treat a molecule with atoms of mass 1.165 amu and 18.642 amu and a bond length of 1.28 Å as a 3-D rigid rotor, and determine its / = 5 energy eigenvalue. Answer:
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