solve this question Assuming that all selection rules apply, approximate the rotovibrational change inenergy for relaxation of the hot band (starting in w =excitation from the J=8 state using ONLY the rigid rotor/harmonic oscillator model.Simplify your answer.2) in tandem with rotational

In case of a rigid rotor, FJ=BJJ+1 where, ∆J=±1 During the transition, the change in wave number is:…

Assuming that all selection rules apply, approximate the rotovibrational change in energy for relaxation of the hot band (starting in w = 2) in tandem with rotational excitation from the J=8 state using ONLY the rigid rotor/harmonic oscillator model. Simplify your answer.

Assuming that all selection rules apply, approximate the rotovibrational change in energy for relaxation of the hot band (starting in w = 2) in tandem with rotational excitation from the J=8 state using ONLY the rigid rotor/harmonic oscillator model. Simplify your answer.

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Assuming that all selection rules apply, approximate the rotovibrational change in
energy for relaxation of the hot band (starting in w =
excitation from the J=8 state using ONLY the rigid rotor/harmonic oscillator model.
Simplify your answer.
2) in tandem with rotational

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