Physical Chemistry Third Edition

(C. Jardin) #1
1200 28 The Structure of Solids, Liquids, and Polymers

molecular massMi, and sum the equations over all possible molecular masses. Since
Khas the same value for all molecules of a given polymer, we can write

[η]K


i

WiMai (28.8-10)

where the sum is over different molecular masses. We define theviscosity-average
molecular mass:

〈M〉v

(


i

WiMia

) 1 /a
(28.8-11)

Combining Eq. (28.8-10) and Eq. (28.8-11) gives

[η]K(〈M〉v)a (28.8-12)

The viscosity-average molecular mass is not equal to the mean molecular mass, which
is called thenumber-average molecular mass. There is also an average molecular
mass called themass-average molecular mass, in which each molecule is given an
importance in the average proportional to its mass. The viscosity-average molecular
mass is numerically more nearly equal to the mass-average value than to the number-
average value.

PROBLEMS


Section 28.8: Polymers in Solution


28.41Find the number-average and mass-average molecular
masses for a sample of a polyvinyl alcohol that has
molecules with the following percentages and molecular
masses:


10 .00% 5000 amu
25 .00% 15,000 amu
60 .00% 25,000 amu
5 .00% 35,000 amu

28.42Assume that the diameter of a molecule of polyvinyl
alcohol is equal to the root-mean-square end-to-end
distance. Assume that (since 6 carbon atoms can make a


ring) each set of three carbons constitutes a link in a
freely jointed chain, of length 2.57× 10 −^10 m. (Each link
constitutes one and one-half monomer units.)
a.Find the volume of a sphere containing one molecule
of polyvinyl alcohol of mass 60,000 amu.
b.Find the viscosity at 20◦C of a solution of such
molecules (all assumed identical) of 1.00 g L−^1 , using
the Einstein equation, Eq. (28.8-3).
c.Find the viscosity at 20◦C of the solution of part a
using Eq. (28.8-9) and assuming that the limiting
value of the specific viscosity can be used at this
concentration.
28.43Find the viscosity-average molecular mass of the
polyvinyl alcohol sample of Problem 28.41.

28.9 Rubber Elasticity


Rubber is a naturally occurring polymer, first used as pencil erasers, which was the
origin of the English name. It is an addition polymer of isoprene (2-methyl-
1,3-butadiene). In forming an addition polymer, a double bond “opens up” to link
each monomer to the chain without forming a second product. Since each molecule
of the monomer has two double bonds, there remains one double bond per monomer
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