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GRE Chemistry Organic

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Answer 50 questions in 15 minutes.
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Match each statement with the correct term.
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1. R-NH2 + NaNO2/HCl --> R-N=N+ Cl-
C=O + Zn - Hg / HCl
Diazotization
Tosylation
Hofmann Product

2. Reacts with alkene to form oxirane
Chromic Acid
Peroxyacid
Anti-orientation
1 -2 Dihalide + Zn

3. Forms carboxylic acid; releases N
Nitrile + H2O/H+
Saytzeff Product
HBr or HI cleavage
O-P Directors

4. Elimination to form alkene
Diels-Alder
Oxirane
Acyl Chloride
1 -2 Dihalide + Zn

5. More substituted elimination; more stable
Saytzeff Product
Oxirane
1 -3-dithiane + BuLi / R-OH
Halohydrin + Base

6. Non-superimposable mirror image
Enantiomer
Geometrical isomer
Forms cyclopropane ring from alkene
Peroxyacid

7. Highly reactive carbonyl
Acyl Chloride
Thioacetal
SN2
H+ - HgCl2 - H2O

8. Donate electrons to aromatic ring
O-P Directors
Nitrile + H2O/H+
SN2
Oxidizes amine groups

9. Anti-alignment required
1 -3 Dihalide + Zn
SN2
E2 Elimination
Benzyl hydrogenolysis

10. 2 Sulfide linkages in place of aldehyde
Diazotization
Thioacetal
Diels-Alder
Benzene + CO + HCl (w/ AlCl3)

11. Best with electron withdrawing group ortho/para to substitution site
SN1
Nucleophilic Aromiatic Substitution
1 -2 Dihalide + Zn
E2 Elimination

12. Alcohol closes ring to form oxirane
Halohydrin + Base
Nucleophilic Addition
Anti-orientation
Diels-Alder

13. Differ in fixed geometrical arrangement of atoms
Hofmann Product
Nitrile + H2O/H+
Diazotization
Stereoisomers

14. Benzaldehyde
Forms cyclopropane ring from alkene
Clemmenson reaction
Benzene + CO + HCl (w/ AlCl3)
E1 Elimination

15. Aldehyde / ketone synthesis
1 -3-dithiane + BuLi / R-OH
Oxirane
Geometrical isomer
C=O + Zn - Hg / HCl

16. Cycloformation
Aniline
Thioacetal
1 -3 Dihalide + Zn
Acyl Chloride

17. Less substituted elimination; sterically hindered
KMnO4
Benzyl hydrogenolysis
Hofmann Product
Thioacetal

18. Ch2I2 - Zn(Cu)
Forms cyclopropane ring from alkene
Methoxy group
Hg(OAc)2
Thioacetal

19. Cyclic ether
Aniline
Nitrile + H2O/H+
Oxirane
E2 Elimination

20. H2O2
Ozonolysis
RSH + KMnO4
E2 Elimination
Oxidizes amine groups

21. Oxidize to -COOH
Oxirane
Chromic Acid
Addition of Alkali Metal to alcohol
E1 Elimination

22. R-SO3H
Geminal
Oxirane
SN2
RSH + KMnO4

23. Bound to adjacent atoms
Conformational Isomer
Vicinal
Addition of Alkali Metal to alcohol
Halohydrin + Base

24. Formation of ethoxide
Addition of Alkali Metal to alcohol
Aniline
Ozonolysis
Nitrile + H2O/H+

25. Reduces one bond of benzene ring
Vicinal
KMnO4
E2 Elimination
Birch reduction

26. Tertiary carbon center; racemic
Benzyl hydrogenolysis
SN1
RSH + KMnO4
Nitrile + H2O/H+

27. Less hindered carbon center; chiral inversion
Oxime
Forms cyclopropane ring from alkene
Benzene + CO + HCl (w/ AlCl3)
SN2

28. Allylic Substitution
NBS
Diazotization
Ozonolysis
Halohydrin + Base

29. Differ in rotation about sigma bonds
Solvomercuration-demercuration
Nitrile + H2O/H+
Benzene + CO + HCl (w/ AlCl3)
Conformational Isomer

30. Ph-NH2
RSH + KMnO4
NBS
Aniline
Benzyl hydrogenolysis

31. Cis/trans Isomers
Thioacetal
Addition of Alkali Metal to alcohol
Geometrical isomer
Saytzeff Product

32. Can protect a ketone
HBr or HI cleavage
Acyl Chloride
Methoxy group
Thioacetal

33. Thionyl chloride
Benzyl hydrogenolysis
Vicinal
Nucleophilic Aromiatic Substitution
SOCl2

34. Tertiary carbocation formed; relieved by deprotonation
SN2
SOCl2
E1 Elimination
Vicinal

35. One carbon away from aryl group can be reduced with Pd / H2
Conformational Isomer
KMnO4
SOCl2
Benzyl hydrogenolysis

36. R2C=N-OH
Enantiomer
Peroxyacid
Oxime
Nucleophilic Addition

37. 4-pi system + 2-pi system --> Ring formation
Diels-Alder
Benzene + CO + HCl (w/ AlCl3)
Acyl Chloride
Enantiomer

38. Reduces ketone to alkane
SN1
RSH + KMnO4
Thioacetal
Clemmenson reaction

39. Reduces Ar-CH3 to -COOH
Birch reduction
SN1
H+ - HgCl2 - H2O
KMnO4

40. Attach tosyl group onto alcohol
SN2
Hofmann Product
Tosylation
Conformational Isomer

41. Split an alkene into 2 carbonyls
Birch reduction
Ozonolysis
Oxidizes amine groups
Oxime

42. Bound to same atom
Stereoisomers
Geometrical isomer
Benzyl hydrogenolysis
Geminal

43. Differ in position of atoms
Constitutional Isomer
E2 Elimination
Thioacetal
1 -3-dithiane + BuLi / R-OH

44. Replaces thioacetal/ketal with carbonyl
H+ - HgCl2 - H2O
Hofmann Product
Methoxy group
Addition of Alkali Metal to alcohol

45. Formation of salcohol from alkene
Hg(OAc)2
Conformational Isomer
Acyl Chloride
HBr or HI cleavage

46. Oxidize to -CHO
Meso compound
SN1
Pyridine
Thioacetal

47. Oxirane ring opening
Anti-orientation
C=O + Zn - Hg / HCl
Vicinal
Enantiomer

48. Uses Hg(OAc)2 + R'OH; forms ether from alkene
Peroxyacid
Stereoisomers
Anti-orientation
Solvomercuration-demercuration

49. Nucleophile adds to ketone (forming alcohol)
Nucleophilic Addition
Peroxyacid
E2 Elimination
Forms cyclopropane ring from alkene

50. CH2-
O-P Directors
Vicinal
Benzyl hydrogenolysis
C=O + Zn - Hg / HCl