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Chapter 25 Organic and Biological Chemistry

Chemistry, The Central Science , 10th edition Theodore L. Brown; H. Eugene LeMay, Jr.; and Bruce E. Bursten. Chapter 25 Organic and Biological Chemistry. John D. Bookstaver St. Charles Community College St. Peters, MO 2006, Prentice Hall, Inc. Modified by Jill McDannold. Organic Chemistry.

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Chapter 25 Organic and Biological Chemistry

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  1. Chemistry, The Central Science, 10th edition Theodore L. Brown; H. Eugene LeMay, Jr.; and Bruce E. Bursten Chapter 25Organic and Biological Chemistry • John D. Bookstaver • St. Charles Community College • St. Peters, MO • 2006, Prentice Hall, Inc. Modified by Jill McDannold

  2. Organic Chemistry • The chemistry of carbon compounds. • Carbon has the ability to form long chains. • Without this property, large biomolecules such as proteins, lipids, carbohydrates, and nucleic acids could not form.

  3. Structure of Carbon Compounds • Carbon typically forms 4 covalent bonds. • There are three hybridization states and geometries found in organic compounds: • sp3 Tetrahedral • sp2 Trigonal planar • sp Linear

  4. Hydrocarbons • Four basic types: • Alkanes (single bonds) • Alkenes (1 double bond) • Alkynes (1 triple bond) • Aromatic hydrocarbons (contain a benzene ring)

  5. Alkanes • Only single bonds. • Saturated hydrocarbons. • “Saturated” with hydrogens.

  6. Formulas • Lewis structures of alkanes look like this. • Also called structural formulas. • Often not convenient, though…

  7. Formulas …so more often condensed formulas are used.

  8. Properties of Alkanes • Only van der Waals force: London force. • Boiling point increases with length of chain.

  9. Structure of Alkanes • Carbons in alkanes sp3 hybrids. • Tetrahedral geometry. • 109.5° bond angles.

  10. Structure of Alkanes • Only single bonds. • Free rotation about C—C bonds. • Fairly unreactive because of the stability of the single covalent C-C and C-H bonds. • Therefore, they make great nonpolar solvents.

  11. Isomers Have same molecular formulas, but atoms are bonded in different order. Boiling and melting points vary but molar mass is the same.

  12. Organic Nomenclature • Three parts to a compound name: • Base: Tells how many carbons are in the longest continuous chain.

  13. Organic Nomenclature • Three parts to a compound name: • Base: Tells how many carbons are in the longest continuous chain. • Suffix: Tells what type of compound it is.

  14. Organic Nomenclature • Three parts to a compound name: • Base: Tells how many carbons are in the longest continuous chain. • Suffix: Tells what type of compound it is. • Prefix: Tells what groups are attached to chain.

  15. To Name a Compound… • Find the longest chain in the molecule. • Number the chain from the end nearest the first substituent encountered. • List the substituents as a prefix along with the number(s) of the carbon(s) to which they are attached.

  16. To Name a Compound… If there is more than one type of substituent in the molecule, list them alphabetically.

  17. Cycloalkanes • Carbon can also form ringed structures. • Five- and six-membered rings are most stable. • Can take on conformation in which angles are very close to tetrahedral angle. • Smaller rings are quite strained.

  18. Alkenes • Contain at least one carbon–carbon double bond. • Unsaturated. • Have fewer than maximum number of hydrogens.

  19. Structure of Alkenes • Unlike alkanes, alkenes cannot rotate freely about the double bond. • Side-to-side overlap makes this impossible without breaking -bond.

  20. Structure of Alkenes This creates geometric isomers, which differ from each other in the spatial arrangement of groups about the double bond.

  21. Properties of Alkenes Structure also affects physical properties of alkenes.

  22. Nomenclature of Alkenes • Chain numbered so double bond gets smallest possible number. • cis- alkenes have carbons in chain on same side of molecule. • trans- alkenes have carbons in chain on opposite side of molecule.

  23. Reactions of Alkenes • Addition Reactions • Two atoms (e.g., bromine) add across the double bond.

  24. Alkynes • Contain at least one carbon–carbon triple bond. • Carbons in triple bond sp-hybridized and have linear geometry. • Also unsaturated.

  25. Nomenclature of Alkynes 4-methyl-2-pentyne • Analogous to naming of alkenes. • Suffix is -yne rather than –ene.

  26. Reactions of Alkynes • Undergo many of the same reactions alkenes do.

  27. Aromatic Hydrocarbons • Cyclic hydrocarbons. • p-Orbital on each atom. • Molecule is planar.

  28. Aromatic Nomenclature Many aromatic hydrocarbons are known by their common names.

  29. Reactions of Aromatic Compounds • Unlike in alkenes and alkynes, -electrons do not sit between two atoms. • Electrons are delocalized; this stabilizes aromatic compounds.

  30. Structure of Aromatic Compounds • Two substituents on a benzene ring could have three possible relationships • ortho-: On adjacent carbons. • meta-: One carbon between them. • para-: On opposite sides of ring.

  31. Functional Groups Term used to refer to parts of organic molecules where reactions tend to occur.

  32. Alcohols • Contain one or more hydroxyl groups, —OH • Named from parent hydrocarbon; suffix changed to -ol and number designates carbon to which hydroxyl is attached.

  33. Alcohols

  34. Ethers • Tend to be quite unreactive. • Therefore, they are good polar solvents.

  35. Carbonyl Compounds • Contain C—O double bond. • Include many classes of compounds.

  36. Aldehydes At least one hydrogen attached to carbonyl carbon.

  37. Ketones Two carbons bonded to carbonyl carbon.

  38. Carboxylic Acids • Have hydroxyl group bonded to carbonyl group. • Tart tasting. • Carboxylic acids are weak acids. CH3COOH

  39. Carboxylic Acids

  40. Esters • Products of reaction between carboxylic acids and alcohols. • Found in many fruits and perfumes.

  41. Amides Formed by reaction of carboxylic acids with amines.

  42. Amines • Organic bases. • Generally have strong, unpleasant odors.

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