2. Consider the two cydlic molecules below A. B. a. The CH2 hydrogens of molecule A. and B. show very different acidities - the pka of A. is 16 while the pKa of B. is 36. Recall that the pka is the negative log of the acid dissociation constant. First, draw the resulting conjugate base anions when one CH2 proton is removed from molecule A. and molecule B. Then, explain the differences in acidities by examining the relative stability of the two conjugate bases.

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Chapter1: Chemical Foundations
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2. Consider the two cyclic molecules below
А.
a. The CH2 hydrogens of molecule A. and B. show very different acidities -
the pka of A. is 16 while the pKa of B. is 36. Recall that the pka is the
negative log of the acid dissociation constant. First, draw the resulting
conjugate base anions when one CH2 proton is removed from molecule A.
and molecule B. Then, explain the differences in acidities by examining the
relative stability of the two conjugate bases.
А.
b. Now consider the two molecules A. and B. Note that A. is a dianion and B.
is a neutral molecule. One of these molecules is a highly reactive compound
first characterized in frozen noble gas matrices, that self-reacts rapidly at
temperatures above liquid nitrogen temperature. The other compound was
isolated at room temperature in the early 1960s, and is a stable ligand used
in organometallic chemistry. Which molecule is the more stable molecule,
and why?
B.
B.
Transcribed Image Text:2. Consider the two cyclic molecules below А. a. The CH2 hydrogens of molecule A. and B. show very different acidities - the pka of A. is 16 while the pKa of B. is 36. Recall that the pka is the negative log of the acid dissociation constant. First, draw the resulting conjugate base anions when one CH2 proton is removed from molecule A. and molecule B. Then, explain the differences in acidities by examining the relative stability of the two conjugate bases. А. b. Now consider the two molecules A. and B. Note that A. is a dianion and B. is a neutral molecule. One of these molecules is a highly reactive compound first characterized in frozen noble gas matrices, that self-reacts rapidly at temperatures above liquid nitrogen temperature. The other compound was isolated at room temperature in the early 1960s, and is a stable ligand used in organometallic chemistry. Which molecule is the more stable molecule, and why? B. B.
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