The nitrogen of an amine has the same geometry it has in ammonia (Section 1.12).
One, two, or three hydrogens may be replaced by alkyl groups. The number of hydro-
gens replaced by alkyl groups determines whether the amine is primary, secondary, or
tertiary (Section 2.7).PROBLEM 19Predict the approximate size of the following angles. (Hint: See Sections 1.11 and 1.12.)a. the bond angle in an ether
b. the bond angle in a secondary amine
c. the bond angle in an alcohol
d. the bond angle in a quaternary ammonium salt2.9 Physical Properties of Alkanes, Alkyl Halides,
Alcohols, Ethers, and Amines
Boiling Points
The boiling point (bp)of a compound is the temperature at which the liquid form of
the compound becomes a gas (vaporizes). In order for a compound to vaporize, the
forces that hold the individual molecules close to each other in the liquid must be over-
come. This means that the boiling point of a compound depends on the strength of the
attractive forces between the individual molecules. If the molecules are held together
by strong forces, it will take a lot of energy to pull the molecules away from each other
and the compound will have a high boiling point. In contrast, if the molecules are held
together by weak forces, only a small amount of energy will be needed to pull the mol-
ecules away from each other and the compound will have a low boiling point.C¬N¬CC¬O¬HC¬N¬CC¬O¬CH H CH 3CH 3 CH 3 CH 3methylamine
a primary aminesp^3 hybridizeddimethylamine
a secondary amineN H N CH 3 N CH 3trimethylamine
a tertiary amineelectrostatic potential maps for
methylamine dimethylamine trimethylaminean ether
electrostatic potential
map for dimethyl ethersp^3 hybridized
ORRSection 2.9 Physical Properties of Alkanes, Alkyl Halides, Alcohols, Ethers, and Amines 813-D Molecules:
Methylamine;
Dimethylamine;
TrimethylamineBRUI02-060_108r4 20-03-2003 11:47 AM Page 81