I. Assuming that it acts as a rigid rotor, harmonic oscillator and using the molecular constants...
10. In the vibrational rotational spectrum of a diatomic molecule, the second line of the P branch (J" = 2 = 1) is observed at 3100 cm and the third line of the R branch (J" = 2- )' = 3) is observed at 3160.cm! Assuming the molecule behaves as a rigid rotor and a harmonic oscillator, calculate the rotational constant (R) and the fundamental vibration wavenumber (V) for the molecule. Hint, you need two equations to solve for the...
1. The fundamental vibration of 1H19F is at 3961.64 cm-1. Using the harmonic oscillator model, calculate the “force constant” of the bond (in N/m) and use this value to predict the fundamental frequency of both 2H19F and 1H18F in wavenumbers. Briefly explain why the fundamental frequencies are so different. (amu masses: 1H = 1.0078, 2H = 2.0140, 18F=18.0009, 19F=18.9984) 2. What is the fundamental frequency of the vibrational mode best described by the term “symmetric stretch”?
Anyone plz answer these questions? Especially c) read the
questions carefully and answer fully not only wavenumbers but also
F and rotational constant
1. The rotational vibra R branch. P branch A B C DEF 2700 -1 2600 2500 2400 V/cm Each line in this spectrum corresponds to a transition from a state with n 0 and J Jinitial to a state with n- 1 and J Jfinal. of this a. What are the allowed values ofAJ Je Jinitial in...
I know how to do A but not sure how to do B, C and D.
Thank you so much!
5. Vibration of diatomic molecule (20 points total) The adjacent figure shows the experimentally detemined potential energy curve of the electronic ground state of Br2 with a few of the vibrational levels. The vibrational transitions are reasonably well described by a harmonic-oscillator model but much more accurately by including a small anharmonic correction term: En/hc = e(n +1/2) - exe(n...
4. Anharmonic potential (15 points) The adjacent figure shows the experimentally determined potential energy curve of the electronic ground state of"Br2, with a few of the vibrational levels. The vibrational transitions are reasonably well described by a harmonic oscillator model, but much more accurately by including a small anharmonic correction term: En/hcVe(n 1/2) - vexe(n + 1/2)2. From fits to experimental data, the values of the constants are 325.32 cm and exe 1.08 cm .5 10 15 (a) Calculate the...
need # 4 or 5
o Vibrational spectroscopy of the NO molecule (with absorption at 1878 cm isotope masses of No14 and 0-16, respectively) reveals Assuming that this transition represents the energy spacing between vibrational energy levels, calculate the force constant of the bond Assuming that the "N"O molecule has a bond with the same force constant as in part a, predict the position (in cm) of the absorbance peak for this molecule. 1. a. b 2. Normalize the first...