940 22 Translational, Rotational, and Vibrational States of Atoms and Molecules
PROBLEMS
Section 22.4: The Rotation and Vibration of Polyatomic
Molecules
22.21The equilibrium CO bond length in carbon dioxide
is 116.15 pm. Find the moment of inertia of CO 2.
22.22Consider the SF 6 molecule.
a. Specify the shape of the molecule in its equilibrium
conformation. List as many of the symmetry
operators that belong to the molecule as
you can.
b.Assign the principal rotational axes of the molecule. Is
the molecule a symmetric top, an asymmetric top, or a
spherical top? Estimate the three principal moments of
inertia of the molecule. Assume that the bond lengths
are equal to 1.82 Å182 pm.
c.Write a formula for the rotational energy levels of the
molecule in joules and in electron volts. Specify the
degeneracies of the levels.
d.How many vibrational normal modes does the
molecule have?
22.23Find the symmetry numbers of the molecules in their
equilibrium conformations:
a.Dichloromethane, CH 2 Cl 2
b.Toluene, C 6 H 5 CH 3
c.Sulfur hexafluoride, SF 6
22.24Classify each of the following molecules in its
equilibrium conformation as linear, spherical top, prolate
symmetric top, oblate symmetric top, or asymmetric top.
Give the symmetry number for each molecule.
a.H 2 O
b.CO 2
c.CH 3 Cl
22.25Classify each of the following molecules in its
equilibrium conformation as linear, spherical top, prolate
symmetric top, oblate symmetric top, or asymmetric top.
Give the symmetry number for each molecule.
a.CHCl 3
b.CH 2 Cl 2
c.CCl 4
22.26Classify each of the following molecules in its
equilibrium conformation as linear, spherical top,
prolate symmetric top, oblate symmetric top, or
asymmetric top. Give the symmetry number for each
molecule.
a.C 6 H 6
b.C 2 H 6 (staggered)
c.C 2 H 5 Cl
d.C 2 H 4
e.C 2 H 2
f. trans-C 2 H 2 F 2
22.27Classify each of the following molecules in its
equilibrium conformation as linear, spherical top, prolate
symmetric top, oblate symmetric top, or asymmetric top.
Give the symmetry number for each molecule.
a.CH 2 O
b.HCN
c.1,1-Dichloroethene
d.cis-C 2 H 2 F 2
e.C 2 H 6 (eclipsed)
f. 1,1,1-Trichloroethane (eclipsed)
22.28Determine the number of vibrational normal modes for
each of the molecules in Problem 22.24.
22.29Determine the number of vibrational normal modes for
each of the molecules in Problem 22.27.
22.30Determine the number of vibrational normal modes for
each of the molecules in Problem 22.25.
22.31Determine the number of vibrational normal modes for
each of the molecules in Problem 22.26.
22.32Without doing any calculations, assign principal axes for
the molecules in parts a–c of Problem 22.27.
22.33Without doing any calculations, assign principal axes for
the molecules in parts d–f of Problem 22.27.
22.34Without doing any calculations, assign principal axes for
the molecules in parts a, b, d, and e of Problem 22.26.
22.35At high temperatures, the two methyl groups making
up the ethane molecule rotate nearly freely with respect to
each other about the C–C bond instead of undergoing a