2) Both of the 2,3-dichloropentane diastereomers are chiral ⇒ each exhibits optical
activity.
i) The two diastereomers have different physical properties (e.g., m.p. & b.p.)
and are separable by conventional means (by GC, LC, or by careful fractional
distillation).A Mechanism for the Reaction
The Stereochemistry of Chlorination at C3 of (S)-2-Chloropentane
++CCHCH 2(2S,3S)-2,3-Dichloropentane Trigonal planar radicalDiastereomersClCl ClCl 2 Cl 2
Cl Cl(chiral) (chiral) (chiral)CH 3
H ClCH 3CC
H
CH 2CH 3
H ClCH 3CH 2CCH 2CH 3
H ClCH 3CCCH 2CH 3
H ClHCH 3
(2S,3R)-2,3-DichloropentaneAbstraction of a hydrogen atom from C3 of (S)-2-chloropentane produces a radical
that is chiral (it contains a stereocenter at C2). This chiral radical can then react
with chlorine at one face [path (a)] to produce (2S,3S)-2,3-dichloropentane and at
the other face [path (b)] to yield (2S,3R)-2,3-dichloropentane. These two
compounds are diastereomers, and they are not produced in equal amounts. Each
product is chiral, and each alone would be optically active.(^)