2. The study of carbon-based compounds and their properties.

5. Historically the distinction between inorganic and organic substances was based on whether or not they were produced by living systems. It was believed that some sort of “life force” was needed to synthesize them.

6. In 1828, the German chemist Freidrich Wohler (1800-1882) prepared urea from the inorganic salt ammonium cyanate by simple heating. NH 4 OCN  H 2 N—C—NH 2 O urea

7. Hydrocarbons: contain only hydrogen and carbon Hydrocarbons AliphaticAromatic AlkanesAlkenesAlkynesCyclic Hydrocarbons can be divided into different types, depending on their bonding.

8. Naming Organic Molecules Alkanes - - Carbon chain, no double or triple bonds. All single bonds (saturated) Alkenes - - Carbon chain, contains double bond(s) (unsaturated) Alkynes - - Carbon chain, contains triple bond(s) (unsaturated)

9. Naming Organic Molecules There are two parts to the main name of each molecule… prefix: tells the # of carbons in main chain or ring suffix: tells the type of bonding in the chain or ring

10. Prefix: indicates number of carbon atoms in the main chain or ring 1meth- 2eth- 3prop- 4but- 5pent- 6hex- 7hept- 8oct- 9non- 10dec-

11. Suffix: indicates types of bonds present Alkanes: (all single bonds) ___ -ane Alkenes: (double bond) ___ -ene Alkyne: (triple bond) ___ -yne

12. Saturated Hydrocarbons:  the ALKANES: chains of carbon connected by single bonds: contain only single C-C bonds

13. Saturated v. Unsaturated fats Saturated with H Single bonds are free to rotate, so these fats can pack tightly (solid @ room temp)

14. Which one is saturated?

15. For a bit of a demonstration…  Good Eats fat train analogyfat train analogy Watch episode from 1:30 to 5:00

16. ALKANES

18. ALKANES propane, C 3 H 8

19. ALKANES butane, C 4 H 10

20. ALKANES pentane, C 5 H 12

21. ALKANES hexane, C 6 H 14

22. ALKANES octane, C 8 H 18

23. Don’t write this example down, but watch to see where we’re going with this…

24. (Although you will be required to include the H’s if you take IB Chemistry)

27. “Normal” v. Branched  “normal” hydrocarbons are straight chains; no branching  Branched-chain hydrocarbons – isomers of “normal” hydrocarbons; have same formula, but different structures

28. n-butane

29. 2-methlypropane

30. n-pentane

31. 2-methylbutane

32. Are there any other pentane isomers?

33. Another branched alkane: 2,2-dimethylpentane

34. cyclopentane Cycloalkanes

35.  cyclobutane

36. Cycloalkanes  ________________________ methyl- ethyl- 1 2 3 3 2 1 green or red? -ethyl- -methylcyclopentane13

37. Unsaturated Hydrocarbons: ALKENES – contain C-C double bonds 2-pentene

38. Unsaturated Hydrocarbons: ALKENES – contain C-C double bonds 2,4-hexadiene

39. Unsaturated Hydrocarbons: ALKYNES – contain C-C triple bonds 1-butyne

40. Unsaturated Hydrocarbons: ALKYNES – contain C-C triple bonds 3-ethyl-1-pentyne

41. Aromatic Hydrocarbons: benzene – the simplest aromatic hydrocarbon; has a symmetrical ring structure

42. Aromatic Hydrocarbons: benzene – can be drawn like this…

43. Derivatives of benzene: 1-ethyl-2-methylbenzene

44. Derivatives of benzene: 1,2-dimethyl-4-propylbenzene

45. For your homework: If a halogen is attached, use the following prefixes: fluoro- chloro- bromo- iodo- (instead of methyl-, ethyl-, propyl-, etc.)