Chemistry 3719 - Organic Chemistry I - PowerPoint PPT Presentation

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Chemistry 3719 - Organic Chemistry I

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Title: Chemistry 3719 - Organic Chemistry I


1
Chapter 1 1.2-1.3 Bonding Atoms trying to
attain the stable configuration of a noble
(inert) gas - often referred to as the octet rule
1.2 Ionic Bonding - Electrons Transferred
1.3 Covalent Bonding - Electrons Shared
type of bond that is formed is dictated by the
relative electronegativities of the elements
involved
2
Electronegativity the attraction of an atom for
electrons
3
Important Electronegativity Values
H 2.1 Li Be B C N O F 1.0 2.0 2.5 3.0 3.5 4.0
Cl 3.0 Br 2.8 I
2.5
4
Important Electronegativity Values
H 2.1 Li Be B C N O F 1.0 2.0 2.5 3.0 3.5 4.0
Cl 3.0 Br 2.8 I
2.5
5
1.2 Ionic bonding
Electrons Transferred Big differences in E.N.
values Metals reacting with non-metals
6
1.3 Covalent Bonding - Similar electronegativities
Lewis dot representations of molecules
H . H .
H H
B.D.E
Hydrogen atoms
Hydrogen molecule
104 kcal/mol
B.D.E
104 kcal/mol
B.D.E. bond dissociation energy
7
1.3 Lewis Dot Structures of Molecules
8
1.4 Double bonds and triple bonds
Double bonds - alkenes
Triple bonds - alkynes
9
1.5 Polar covalent bonds and electronegativity
H2 HF H2O CH4 CH3Cl
Based on electronegativity
?
?-
Li
H
10
1.6 Structural Formula in Organic Chemistry
11
1.6 Constitutional Isomers
Same molecular formula, completely different
chemical and physical properties
12
1.7 Formal Charge
Formal charge group number - number
of bonds - number of unshared
electrons
13
1.8 Resonance Structures - Electron Delocalization
Table 1.6 formal rules for resonance
14
1.9 Shapes of Molecules
Shapes of molecules are predicted using VSEPR
theory
15
1.9 Shape of a molecule in terms of its
atoms Figure 1.9
Table 1.7 VSEPR and molecular geometry
16
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17
Trigonal planar geometry of bonds to carbon in
H2CO
Linear geometry of carbon dioxide
18
1.10 Molecular dipole moments
Figure 1.7
19
1.11 Curved Arrows Extremely Important
  • Curved arrows are used to track the flow of
  • electrons in chemical reactions.
  • Consider the reaction shown below which shows
  • the dissociation of AB

20
Curved Arrows to Describe a Reaction
  • Many reactions involve both bond breaking
  • and bond formation. More than one arrow
  • may be required.

21
1.12 Acids and Bases - Definitions
Arrhenius An acid ionizes in water to give
protons. A base ionizes in water to give
hydroxide ions. Brønsted-Lowry An acid is a
proton donor. A base is a proton
acceptor. Lewis An acid is an electron pair
acceptor. A base is an electron pair donor.
22
1.13 A Brønsted-Lowry Acid-Base Reaction
A proton is transferred from the acid to the base.


.
.
B

H
A
B
A
H

base
acid
conjugate acid
conjugate base
23
Proton Transfer from HBr to Water
hydronium ion (H3O)
H
H
..


..
.
.
.
.
O
Br
H
H
Br
O


..
..
H
H
base acid conjugate conjugate acid base
24
Equilibrium Constant for Proton Transfer
..
.

.

O

H
Br
H
O
..
H3OBr
Ka
HBr
pKa log10 Ka
25
Acids and Bases Arrow Pushing
H3OBr
Ka
106 for HBr, pKa - 5.8
HBr
26
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27
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28
Need to know by next class pKa
-log10Ka STRONG ACID LOW pKa WEAK ACID
HIGH pKa HI, HCl, HNO3, H3PO4 pKa -10 to -5
Super strong acids H3O pKa
1.7 RCO2H pKa 5 acids PhOH pKa
10 get H2O, ROH pKa 16 weaker RCCH
(alkynes) pKa 26 RNH2 pKa 36 Extremely
weak acid RCH3 pKa 60 Not acidic at all
29
1.14 What happened to pKb?
  • A separate basicity constant Kb is not
    necessary.
  • Because of the conjugate relationships in the
    Brønsted-Lowry approach, we can examine acid-base
    reactions by relying exclusively on pKa values.

pKa 60 Essentially not acidic
Corresponding base Extremely strong
30
1.15 How Structure Affects Acid/Base Strength
  • Bond Strength
  • Acidity of HX increases (HIgtHBrgtHClgtHF) down the
    periodic table as H-X bond strength decreases and
    conjugate base (X- anion) size increases (basic
    strength of anion decreases).

31
Electronegativity Acidity increases across
periodic table as the atom attached to H gets
more electronegative (HFgtH2OgtH2NgtCH4).
32
Inductive Effects Electronegative groups/atoms
remote from the acidic H can effect the pKa of
the acid.
pKa 16 pKa 11.3
  • O H bond in CF3CH2OH is more polarized
  • CF3CH2O- is stabilized by EW fluorine atoms

33
Resonance Stabilization in Anion Delocalization
of charge in anion (resonance) makes the anion
more stable and thus the conjugate acid more
acidic e.g. (CH3CO2H gt CH3CH2OH).
pKa 16
pKa 5
34
1.16 Acid-base reactions - equilibria
The equilibrium will lie to the side of the
weaker conjugate base
35
1.17 Lewis acids and Lewis bases
F3B

Lewis acid
Lewis base
Product is a stable substance. It is a liquid
with a boiling point of 126C. Of the two
reactants, BF3 is a gas and CH3CH2OCH2CH3 has a
boiling point of 34C.
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