232 CHAPTER 5 Stereochemistry
different set of stereoisomeric products. When a reactant
that does not have an asymmetric carbon forms a product
with one asymmetric carbon, the product will be a racemic
mixture.
In syn additionthe two substituents add to the same side
of the double bond; in anti additionthey add to opposite
sides of the double bond. Both syn and anti addition occur
in electrophilic addition reactions that take place by way of
a carbocation or a radical intermediate. Addition of to an
alkene is a syn addition reaction. Hydroboration–oxidation
is overall a syn addition of water. Addition of is an anti
addition reaction. An enzyme-catalyzed reaction forms
only one stereoisomer; an enzyme typically catalyzes the
reaction of only one stereoisomer.
Br 2
H 2
Key Terms
absolute configuration (p. 209)
achiral (p. 184)
amine inversion (p. 217)
anti addition (p. 222)
asymmetric carbon (p. 184)
biochemistry (p. 230)
chiral (p. 184)
chiral catalyst (p. 213)
chiral probe (p. 213)
chirality center (p. 185)
cis isomer (p. 183)
cis–trans isomers (p. 182)
chromatography (p. 213)
configuration (p. 188)
configurational isomers (p. 182)
constitutional isomers (p. 182)
dextrorotatory (p. 193)
diastereomer (p. 197)
diastereotopic hydrogens (p. 216)
enantiomer (p. 186)
enantiomerically pure (p. 195)
enantiomeric excess (ee) (p. 196)
enantiotopic hydrogens (p. 215)
enzyme (p. 213)
erythro enantiomers (p. 198)
Fischer projection (p. 187)
geometric isomers (p. 183)
isomers (p. 182)
levorotatory (p. 193)
meso compound (p. 201)
observed rotation (p. 194)
optical purity (op) (p. 195)
optically active (p. 193)
optically inactive (p. 193)
perspective formula (p. 186)
plane of symmetry (p. 201)
plane-polarized light (p. 192)
polarimeter (p. 193)
prochiral carbon (p. 216)
pro-Rhydrogen (p. 216)
pro-Shydrogen (p. 216)
racemate (p. 195)
racemic mixture (p. 195)
Rconfiguration (p. 188)
regioselective (p. 218)
relative configuration (p. 209)
resolution of a racemic mixture (p. 212)
Sconfiguration (p. 188)
specific rotation (p. 194)
stereocenter (p. 187)
stereochemistry (p. 218)
stereoisomers (p. 182)
stereoselective (p. 218)
stereospecific (p. 219)
syn addition (p. 222)
threo enantiomers (p. 198)
trans isomer (p. 183)
Problems
- Neglecting stereoisomers, give the structures of all compounds with molecular formula Which ones can exist as
stereoisomers? - Draw all possible stereoisomers for each of the following compounds. State if no stereoisomers are possible.
a. 1-bromo-2-chlorocyclohexane g. 1,2-dimethylcyclopropane
b. 2-bromo-4-methylpentane h. 4-bromo-2-pentene
c. 1,2-dichlorocyclohexane i. 3,3-dimethylpentane
d. 2-bromo-4-chloropentane j. 3-chloro-1-butene
e. 3-heptene k. 1-bromo-2-chlorocyclobutane
f. 1-bromo-4-chlorocyclohexane l. 1-bromo-3-chlorocyclobutane - Name each of the following compounds using R,Sand E,Z(Section 3.5) designations where necessary:
a. c. e.
b. d. f.
BrCH 2 CH 2 CH 2 CH 2 CHCH 3
Br
CH 3
CH 3
CC CC
CH 3 CH CH 2 CH 2 CH 2 CH 3
H 3 C CH 2 CH 2 Cl
CH 3
CC
F I
Cl Br
Br
H
CC
F
Cl Br
CH 3
CCH 2
CH 2
CH 2 CH 3
CH 2 CH 3
H
C 5 H 10.