Test your basic knowledge |

GRE Chemistry Organic

Instructions:

Answer 50 questions in 15 minutes.
If you are not ready to take this test, you can study here.
Match each statement with the correct term.
Don't refresh. All questions and answers are randomly picked and ordered every time you load a test.

This is a study tool. The 3 wrong answers for each question are randomly chosen from answers to other questions. So, you might find at times the answers obvious, but you will see it re-enforces your understanding as you take the test each time.

1. Chiral - with superimposable mirror image
Nucleophilic Aromiatic Substitution
E1 Elimination
Meso compound
Diels-Alder

2. R-SO3H
Stereoisomers
1 -3-dithiane + BuLi / R-OH
Oxidizes amine groups
RSH + KMnO4

3. Tertiary carbon center; racemic
SN1
Anti-orientation
Addition of Alkali Metal to alcohol
Thioacetal

4. Allylic Substitution
Geometrical isomer
Nucleophilic Aromiatic Substitution
Enantiomer
NBS

5. Bound to same atom
Stereoisomers
1 -3-dithiane + BuLi / R-OH
Geminal
SN2

6. One carbon away from aryl group can be reduced with Pd / H2
Oxidizes amine groups
Thioacetal
Tosylation
Benzyl hydrogenolysis

7. Oxidize to -COOH
Oxidizes amine groups
Chromic Acid
Pyridine
Anti-orientation

8. Cycloformation
SN1
Stereoisomers
Meso compound
1 -3 Dihalide + Zn

9. Elimination to form alkene
Addition of Alkali Metal to alcohol
1 -2 Dihalide + Zn
O-P Directors
E2 Elimination

10. Uses Hg(OAc)2 + R'OH; forms ether from alkene
SN2
Ozonolysis
Constitutional Isomer
Solvomercuration-demercuration

11. Splits an ether into alkyl halides
Anti-orientation
Diels-Alder
HBr or HI cleavage
Geminal

12. Ch2I2 - Zn(Cu)
Thioacetal
Benzene + CO + HCl (w/ AlCl3)
Diels-Alder
Forms cyclopropane ring from alkene

13. Can protect a ketone
Diels-Alder
1 -3 Dihalide + Zn
Thioacetal
Geminal

14. Less hindered carbon center; chiral inversion
1 -3-dithiane + BuLi / R-OH
SN2
Acyl Chloride
Peroxyacid

15. Cyclic ether
Thioacetal
E2 Elimination
Geminal
Oxirane

16. Non-superimposable mirror image
Aniline
E2 Elimination
Ozonolysis
Enantiomer

17. Reduces Ar-CH3 to -COOH
KMnO4
C=O + Zn - Hg / HCl
Meso compound
Hofmann Product

18. Attach tosyl group onto alcohol
NBS
Tosylation
Diazotization
H+ - HgCl2 - H2O

19. Donate electrons to aromatic ring
O-P Directors
1 -2 Dihalide + Zn
Diels-Alder
Enantiomer

20. Oxidize to -CHO
Nucleophilic Aromiatic Substitution
O-P Directors
Oxime
Pyridine

21. Ph-NH2
Vicinal
Aniline
Thioacetal
Nucleophilic Addition

22. Differ in fixed geometrical arrangement of atoms
Stereoisomers
Halohydrin + Base
Hofmann Product
Oxirane

23. 2 Sulfide linkages in place of aldehyde
Thioacetal
1 -3-dithiane + BuLi / R-OH
Aniline
1 -2 Dihalide + Zn

24. Oxirane ring opening
Anti-orientation
Oxidizes amine groups
Oxirane
1 -3 Dihalide + Zn

25. Less substituted elimination; sterically hindered
Thioacetal
Pyridine
Diels-Alder
Hofmann Product

26. Tertiary carbocation formed; relieved by deprotonation
E1 Elimination
NBS
Meso compound
Diels-Alder

27. CH2-
Nitrile + H2O/H+
Vicinal
C=O + Zn - Hg / HCl
Methoxy group

28. Split an alkene into 2 carbonyls
Nucleophilic Addition
Addition of Alkali Metal to alcohol
1 -3-dithiane + BuLi / R-OH
Ozonolysis

29. Cis/trans Isomers
Meso compound
Vicinal
Peroxyacid
Geometrical isomer

30. H2O2
Oxirane
Addition of Alkali Metal to alcohol
Oxidizes amine groups
Nitrile + H2O/H+

31. Bound to adjacent atoms
Thioacetal
E1 Elimination
Vicinal
1 -2 Dihalide + Zn

32. Formation of salcohol from alkene
1 -3 Dihalide + Zn
1 -3-dithiane + BuLi / R-OH
Saytzeff Product
Hg(OAc)2

33. Benzaldehyde
KMnO4
Benzene + CO + HCl (w/ AlCl3)
Birch reduction
Solvomercuration-demercuration

34. More substituted elimination; more stable
Peroxyacid
Saytzeff Product
Tosylation
Geminal

35. Differ in position of atoms
SN1
Peroxyacid
Constitutional Isomer
SN2

36. Anti-alignment required
E2 Elimination
Thioacetal
Diazotization
Solvomercuration-demercuration

37. Replaces thioacetal/ketal with carbonyl
NBS
Oxirane
H+ - HgCl2 - H2O
Enantiomer

38. Forms carboxylic acid; releases N
Geometrical isomer
Nitrile + H2O/H+
Meso compound
Stereoisomers

39. Alcohol closes ring to form oxirane
Pyridine
Halohydrin + Base
Clemmenson reaction
Ozonolysis

40. Highly reactive carbonyl
Geometrical isomer
E2 Elimination
Acyl Chloride
Stereoisomers

41. Aldehyde / ketone synthesis
Stereoisomers
Benzene + CO + HCl (w/ AlCl3)
1 -3-dithiane + BuLi / R-OH
Vicinal

42. Reduces one bond of benzene ring
HBr or HI cleavage
Hofmann Product
Birch reduction
Vicinal

43. Reduces ketone to alkane
SN1
Clemmenson reaction
HBr or HI cleavage
Acyl Chloride

44. 4-pi system + 2-pi system --> Ring formation
Diels-Alder
Nucleophilic Addition
Conformational Isomer
Diazotization

45. OCH3
Tosylation
E2 Elimination
Methoxy group
Forms cyclopropane ring from alkene

46. Best with electron withdrawing group ortho/para to substitution site
Vicinal
Nucleophilic Aromiatic Substitution
Constitutional Isomer
Nucleophilic Addition

47. Differ in rotation about sigma bonds
Diels-Alder
Conformational Isomer
1 -3-dithiane + BuLi / R-OH
Geminal

48. Nucleophile adds to ketone (forming alcohol)
Nucleophilic Addition
Benzene + CO + HCl (w/ AlCl3)
KMnO4
SN2

49. R2C=N-OH
Nucleophilic Aromiatic Substitution
RSH + KMnO4
Halohydrin + Base
Oxime

50. Formation of ethoxide
SN2
Geometrical isomer
Nucleophilic Aromiatic Substitution
Addition of Alkali Metal to alcohol