Introduction to Organic Chemistry - PowerPoint PPT Presentation

1 / 26
About This Presentation
Title:

Introduction to Organic Chemistry

Description:

Organic Chemistry- the study of carbon compounds. Organic Molecules ... The juncture of two lines C atom. Since C has 4 bonds all H's are left out as well ... – PowerPoint PPT presentation

Number of Views:4750
Avg rating:3.0/5.0
Slides: 27
Provided by: faithya
Category:

less

Transcript and Presenter's Notes

Title: Introduction to Organic Chemistry


1
Chapter 12
  • Introduction to Organic Chemistry

2
Organic Chemistry
  • Organic Chemistry- the study of carbon compounds

3
Organic Molecules
  • Carbon is tetravalent always 4 bonds
  • Comprised of covalent bonds
  • Nonpolar
  • Polar
  • Polarized molecules
  • Single, Double, Triple bonds
  • Three dimensional shapes (VSEPR)
  • Contain H, N, and O in addition to carbon

4
Properties of Organic Molecules
  • Low melting and boiling points
  • Few are soluble in water

5
Characterization of Organic Molecules
  • Functional Groups
  • Characteristic structural feature
  • Responsible for chemical behavior
  • Compounds with the same functional groups tend to
    undergo similar reactions

6
(No Transcript)
7
(No Transcript)
8
Alkanes and Their Isomers
  • Alkanes
  • hydrocarbons containing only single bonds
  • CnH2n2
  • Simplest is methane CH4
  • Ethane - C2H6
  • Carbon forms the backbone
  • Propane - C3H8

9
Alkanes and Their Isomers
  • C4H10

10
Alkanes and Their Isomers
  • Straight chain alkanes
  • Branched chain alkanes
  • Constitutional isomers same molecular formula
    but differing connectivity
  • Are different compounds with different properties

11
Alkanes and Their Isomers
12
Drawing Organic Structures
  • Structural Formula shows every atom and every
    bond
  • Condensed Structures Shorthand way of drawing
    structures in which C-C bond and C-H bonds are
    understood
  • Skeletal Structure (Line drawing) Shows the
    carbon backbone using lines
  • The juncture of two lines C atom
  • Since C has 4 bonds all Hs are left out as well

13
Shapes of Organic Molecules
  • Tetrahedral at each carbon with 4 bonds
  • 3 carbon backbone yields only one possible
    arrangement 1 type of geometry
  • 4 carbon straight-chain backbone infinite of
    geometries rotation around single bond
    conformers
  • Primary conformation has the least crowded
    structure

14
Naming Alkanes
  • Use IUPAC naming
  • Three parts
  • Prefix specifies location of substituents
  • Parent indicates the number of carbon atoms in
    the longest chain
  • Suffix identifies what family the molecule
    belongs to.

15
Straight Chain Alkanes
  • Named according to the of carbon atoms with the
    suffix ane.

16
Branched-Chain Alkanes
  • Substituents that branch of the main chain are
    alkyl groups.

17
Branched-Chain Alkanes
  • Methyl and Ethyl groups have only one type of
    hydrogen.
  • More complex for larger groups

18
Branched-Chain Alkanes
  • There are 4 possible substitution patterns

19
Branched-Chain Alkanes
  • Name the main chain
  • Number the atoms in the main chain
  • Identify the branching substituents, and number
    each
  • If two substituents are on the same C then assign
    the same number to both
  • Write the name as a single word
  • If more than one substituent is present, cite
    them in alphabetical order
  • If two or more identical substituents are
    present, use one of the prefixes di-, tri-,
    tetra-, and so forth, but do not use these
    prefixes for alphabetizing purposes.

20
Properties of Alkanes
  • Read Section 12.7, you will be asked a question
    on the exam.

21
Reactions of Alkanes
  • 2 types
  • Combustion
  • Halogenation

22
Cycloalkanes
  • Cycloalkanes contain a ring of carbons.

23
Cycloalkanes
  • Cyclopentane and cyclohexane

24
Drawing and Naming Cycloalkanes
  • Even condensed structures become awkward when we
    work with large molecules that contain rings.
  • A more streamlined way of drawing structures is
    often used in which cycloalkanes are represented
    simply by polygons.

25
Naming Cycloalkanes
  • Use the cycloalkane name as the parent
  • Identify and number the substituents
  • Start numbering at the group with alphabetical
    priority
  • Number the ring so that the substituents have the
    lowest possible numbers

26
Homework
  • 12.17, 12.18, 12.19, 12.20, 12.21, 12.23, 12.30,
    12.31, 12.32, 12.33, 12.39, 12.40, 12.41, 12.42,
    12.44, 12.45, 12.46, 12.47, 12.48, 12.49, 12.50,
    12.51, 12.52, 12.53, 12.54, 12.55, 12.56, 12.58,
    12.59, 12.60, 12.66, 12.67, 12.68, 12.70, 12.71,
    12.72
Write a Comment
User Comments (0)
About PowerShow.com