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Organic Chemistry

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Title: Organic Chemistry


1
Organic Chemistry
  • William H. Brown
  • Christopher S. Foote
  • Brent L. Iverson

2
AlkenesStructure andNomenclature
Chapter 5
3
Unsaturated Hydrocarbons
  • Unsaturated hydrocarbon contains one or more
    carbon-carbon double or triple bonds
  • Alkene contains a carbon-carbon double bond and
    has the general formula CnH2n
  • Alkyne contains a carbon-carbon triple bond and
    has the general formula CnH2n-2

4
Unsaturated Hydrocarbons
  • Arenes benzene and its derivatives (Ch 21-22)
  • we do not study arenes until Chapters 21 22
  • however, we show structural formulas of compounds
    containing the phenyl group before that time
  • the phenyl group is not reactive under any of
    the conditions we describe in Ch 6-20

5
Structure of Alkenes
  • A double bond consists of
  • one sigma bond formed by the overlap of sp2
    hybrid orbitals and one pi bond formed by the
    overlap of parallel 2p orbitals
  • the two carbon atoms of a double bond and the
    four atoms bonded to them lie in a plane, with
    bond angles of approximately 120

6
Structure of Alkenes
  • it takes approximately 264 kJ (63 kcal)/mol to
    break the pi bond in ethylene that is, to rotate
    one carbon by 90 with respect to the other so
    that there is no overlap between 2p orbitals on
    adjacent carbons

7
Cis,Trans Isomerism in Alkenes
  • Cis,trans isomers isomers that have the same
    connectivity but a different arrangement of their
    atoms in space due to the presence of either a
    ring or a carbon-carbon double bond

8
Index of Hydrogen Deficiency
  • Index of hydrogen deficiency (IHD) the sum of
    the number of rings and pi bonds in a molecule
  • To determine IHD, compare the number of hydrogens
    in an unknown compound with the number in a
    reference hydrocarbon of the same number of
    carbons and with no rings or pi bonds
  • the molecular formula of the reference
    hydrocarbon is CnH2n2

9
Index of Hydrogen Deficiency
  • for each atom of a Group 7 element (F, Cl, Br,
    I), add one H
  • no correction is necessary for the addition of
    atoms of Group 6 elements (O,S) to the reference
    hydrocarbon
  • for each atom of a Group 5 element (N, P),
    subtract one hydrogen

IDH
2
10
Index of Hydrogen Deficiency
  • Problem isopentyl acetate has a molecular
    formula of C7H14O2. Calculate its IHD
  • reference hydrocarbon C7H16
  • IHD (16-14)/2 1
  • Problem calculate the IHD for niacin,
    molecular formula C6H6N2O
  • reference hydrocarbon C6H16
  • IHD (16 - 6)/2 5

O
O
Isopentyl acetate
11
IUPAC Nomenclature
  • 1. Number the longest chain of carbon atoms that
    contains the double bond in the direction that
    gives the carbons of the double bond the lowest
    numbers
  • 2. Locate the double bond by the number of its
    first carbon
  • 3. Name substituents
  • 4. Number the carbon, locate and name
    substituents, locate the double bond, and name
    the main chain

12
Common Names
  • Despite the precision and universal acceptance of
    IUPAC nomenclature, some alkenes, particularly
    low-molecular-weight ones, are known almost
    exclusively by their common names

13
Common Names
  • the common names methylene, vinyl, and allyl are
    often used to show the presence of the following
    alkenyl groups

14
The Cis,Trans System
  • Configuration is determined by the orientation of
    atoms of the main chain

15
The E,Z System
  • uses priority rules (Chapter 3)
  • if groups of higher priority are on the same
    side, the configuration is Z (German, zusammen)
  • if groups of higher priority are on opposite
    sides, the configuration is E (German, entgegen)

16
The E,Z System
  • Example name each alkene and specify its
    configuration by the E,Z system

17
Cis,Trans Isomerism
  • Cycloalkenes
  • in small-ring cycloalkenes, the configuration of
    the double bond is cis
  • these rings are not large enough to accommodate a
    trans double bond

18
Cis,Trans Isomerism
  • trans-cyclooctene is the smallest trans
    cyclooctene that has been prepared in pure form
    and is stable at room temperature
  • the cis isomer is 38 kJ (9.1 kcal)/mol more
    stable than the trans isomer
  • the trans isomer is chiral even though it has no
    chiral center

19
Dienes, Trienes, and Polyenes
  • For alkenes containing two or more double bonds,
    change the infix -en- to -adien-, -atrien-, etc.
  • those containing several double bonds are often
    referred more generally as polyenes
  • following are three dienes

20
Dienes, Trienes, and Polyenes
  • for alkenes with n double bonds, each of which
    can show cis,trans isomerism, 2n stereoisomers
    are possible
  • example 22 4 cis,trans isomers are possible
    for 2,4-heptadiene

21
Dienes, Trienes, and Polyenes
  • vitamin A, a biologically important compound for
    which a number of cis,trans isomers is possible
  • there are four double bonds about which cis,trans
    isomerism is possible, for 24 16 stereoisomers

22
Physical Properties
  • Alkenes are nonpolar compounds
  • The only attractive forces between their
    molecules are dispersion forces
  • The physical properties of alkenes are similar to
    those of alkanes

23
Terpenes
  • Terpene a compound whose carbon skeleton can be
    divided into two or more units identical with the
    carbon skeleton of isoprene

24
Terpenes
  • Myrcene, C10H16, a component of bayberry wax and
    oils of bay and verbena
  • Menthol, from peppermint

25
Terpenes
  • ?-Pinene, from turpentine
  • camphor, from the camphor tree

26
Fatty Acids
  • Animal fats and vegetable oils are both triesters
    of glycerol, hence the name triglyceride
  • hydrolysis of a triglyceride in aqueous base
    followed by acidification gives glycerol and
    three fatty acids
  • fatty acids with no CC double bonds are called
    saturated fatty acid
  • those with one or more CC double bonds are
    called unsaturated fatty acids

27
Fatty Acids
  • the most common fatty acids have an even number
    of carbons, and between 12 and 20 carbons in an
    unbranched chain
  • the CC double bonds in almost all naturally
    occurring fatty acids have a cis configuration
  • the greater degree of unsaturation, the lower the
    melting point
  • triglycerides rich in unsaturated fatty acids are
    generally liquid at room temperature and are
    called oils
  • triglycerides rich in saturated fatty acids are
    generally semisolids or solids at room
    temperature and are called fats

28
Fatty Acids
  • the four most abundant fatty acids

29
Fatty Acids
  • carbon chains of saturated fatty acids exist
    largely in the staggered, anti-conformation
  • because of their high degree of order, they pack
    together well and are held together by dispersion
    forces
  • as a result both saturated fatty acids and
    triglycerides derived from them are solids at
    room temperature
  • following is a saturated triglyceride

30
Fatty Acids
  • cis double bonds place kinks in the chains of
    unsaturated fatty acids
  • unsaturated fatty acids and the triglycerides
    derived from them do not pack as well in a
    crystal lattice as their saturated counterparts,
    and have weaker dispersion forces between their
    molecules
  • butter fat, for example, has a high content of
    saturated fatty acids and is a solid at room
    temperature
  • salad oils (from plant oils) have a high content
    of polyunsaturated fatty acids and are liquid at
    room temperature

31
Alkenes Structure andNomenclature
End Chapter 5
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