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OUTLINE
Shapes of Organic Molecules
28-1 Constitutional Isomers
28-2 Stereoisomers
28-3 ConformationsSelected Reactions
28-4 Reactions of Brønsted–Lowry
Acids and Bases
28-5 Oxidation–Reduction Reactions28-6 Formation of Carboxylic
Acid Derivatives
28-7 Hydrolysis of EstersBiopolymers
28-8 Carbohydrates
28-9 Polypeptides and Proteins
28-10 Nucleic AcidsOBJECTIVES
After you have studied this chapter, you should be able to- Describe the differences between constitutional isomers and stereoisomers
- Distinguish between isomers and conformations
- Describe some common organic acids and bases and their relative strengths
- Recall some reactions that involve oxidation and reduction of organic compounds
- Recall reactions that form carboxylic acid derivatives
- Recall reactions in which esters and amides are formed
- Write equations in which carbonyl groups are used to produce other functional groups
- Write equations showing the hydrolysis of esters (saponification)
- Describe the structure of carbohydrates
- Describe the structure of proteins
- Describe the structure of nucleic acids
SHAPES OF ORGANIC MOLECULES
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s we learned in Chapters 25 and 27, the chemical and physical properties of a
substance depend on the arrangements, as well as the identities, of its atoms.Isomersare substances that have the same number and kind of atoms—that is, the
same molecular formula—but with different structural formulas. Because their struc-
tures are different, isomers are different substances and have different properties.Capsaicin, the substance responsible
for the “hot” in peppers, has phenol,
ester, and amide functional groups.
In addition to acting as an
inflammatory agent, it can act as a
pain reliever, presumably by
blocking nerve endings involved in
the transmission of pain.