A certain molecule has a characteristic rotational energy of 8.26x10-4 eV. What is the energy of the decay photon towards the state with angular momentum quantum number l = 9?
Note: The selection rules of delta l = +/- 1 tell you to what state it can decay.
Please show work.
A certain molecule has a characteristic rotational energy of 8.26x10-4 eV. What is the energy of...
A diatomic molecule has 2.6*10^-5eV of rotational energy in the L=2 quantum state. What is the rotational energy in the L=1 quantum state? Find the wavelength for such transition L=2 to L=1.
In the ro-vibrational model for spectra of diatomic molecules, the total rotational and vibrational energy for a given state is: Évj = ū(v + 3) + BJC +1) (Equation 1) where v is the vibrational quantum number and J is the rotational quantum number. Complete the following steps to create a model energy level diagram for a hypothetical diatomic molecule with ✓ = 2000 cm-1 and B = 1 cm-1. i) Draw a horizontal line to represent the ground vibrational...
Problem 4) Consider the rotational motion of a molecule described by the Hami tonian H - AL, where L is the total angular momentum operator. Add a perturbation g r, where g is a constant and r is the position operator for the x-direction. Find the shift in its ground state energy (the energy shift of the state with the lowest rotational energy) to first non-trivial order in q.
5. A diatomic molecule (like H2) can be modeled as two atoms of equal mass m, connected by a rigid massless rod of length a. The system is free to rotate in 3-D. I claim the moment of inertia of this molecule around its ceater of mass is a. (Feel free to convince yourself that factor of k is coect!) Big hint if you 're having trouble getting started: this problem is directly related to McIntyre's Ch A) The energy...
While in this first excited state, the electron receives 2.55 eV of energy. What is the quantum number n that describes the energy level that the electron ends up at? *Please explain how to calculate, the correct answer i 4, but why? Thank you!
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A proton (rest mass is 1.673 times 10^-27 kg, rest energy is 938.3 MeV) has kinetic energy of 2500 MeV. find its momentum (in kg-m/s) (use relativistic relations) find its wavelength if one measures the proton's position to an uncertainty delta x of + l-5.60 times 10^-14 m. find the minimum possible uncertainty in the proton's momentum A panicle of mass 6.646 times 10^-27 kg is confined to a one-dimensional box of length 3.0 times 10^-14 m. What wavelength photon...