Q5: Given the force constant for *N_¹N is 2287 N m¹, estimate a) the zero-point energy and b) the observed frequency of radiation (in cm-¹) that could be absorbed for the N₂ bond. Explain your assumptions. c) The bond dissociation energy of ¹4N-¹4N is 945.3 kJ mol¹¹. What fraction of the

Q5: Given the force constant for *N_¹N is 2287 N m¹, estimate a) the zero-point energy and b) the observed frequency of radiation (in cm-¹) that could be absorbed for the N₂ bond. Explain your assumptions. c) The bond dissociation energy of ¹4N-¹4N is 945.3 kJ mol¹¹. What fraction of the

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Question

Q5: Given the force constant for ¹4N-¹4N is 2287 N m²¹, estimate a) the zero-point energy and b)
the observed frequency of radiation (in cm-¹) that could be absorbed for the N₂ bond. Explain your
assumptions. c) The bond dissociation energy of ¹4N-¹4N is 945.3 kJ mol¹¹. What fraction of the
bond dissociation energy is the zero-point energy for N₂?

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