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MCAT Organic Chemistry

Subjects : mcat, science

Instructions:

Answer 50 questions in 15 minutes.
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Match each statement with the correct term.
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1. Alkenes oxidzed with kmno4 - if made with cold - dilue - make OH on each side of double bond - diols or glycol in syn orientation
cold potassium permanganate
pyrolysis
triple bond
oxidizing

2. Diols with hydroxyl group on adjacent carbon
stereoisomers
halogenation
nonbonded strain
vicinal

3. Name for mathanal
formaldehyde
eclipsed conformation
potassium permanganate
gauche conformation

4. Sharing of electron between atoms
initiation propagation termination
electrophilic addition of HX
covalent bond
combustion - disproportionation - free - radical substitution - pyrolysis

5. Water can be added to alkenes under acidic conditions. make carbocation. ends with alcohol
protic solvent
sp
electrophilic addition of H2O
lindlar's catalyst

6. Zn/h or CH3/s with ozonolysis
electrophile
vicinal
allyl
reducing

7. Functionality is specified by alkoxy- prefix. ROR
ethers
electrophilic addition of X2
isomer
carbonyl

8. Charged - need electrons
electrophilic addition of H2O
Vinyl
mcpba
electrophile

9. Nucleus lover. electron rich species that are attracked to charged atoms
enantiomer
relative configuration
oxidizing
nucleophile

10. What is produced when o3 with lialh4 or nabh4
alcohol
Combustion
catalytic hydrogenation
basicity

11. Creation of long - high molecular weight polymer composed of repeating subunit called monomers. occur through a radical mechanism.
molecular orbital
polymerization
electrophile
quantum numbers

12. One s and two p 120 degree apart
sp2
polymerization
structural isomers
halogenation

13. Most favorable of staggared conformations
disproportionation
chiral center
alkyne
anti conformation

14. Hydrocarbon with one or more carbon carbon triple bond
acetaldehyde
alkyne
2^n
sigma bond

15. Rotations cancel each other out therefore no optical activity
configuration
lindlar's catalyst
optical activity
racemic mixture

16. Fast process. double bond is nucleophile and attack x2. make cyclic halonium ion with either br or cl. and make dihalo trans
alcohol
anti conformation
electrophilic addition of X2
vicinal

17. Solvents with protons in solution - e.g. water or alcohol. large atoms tend to be better nucleophiles in here because they can shed the solvating protons around them and are more polarizable
protic solvent
pi bond
Alkane
meso compound

18. Object that is not superimposable upon mirror image
chiral
primary carbon
structural isomers
Haloalkane

19. E of double bond act as lewis base and react with hydrogen of hx. make carbocation intermediate. use markonikovs rule
electrophilic addition of HX
allyl
geminal
hot - acidic potassium permanganate

20. Transfer of electrions from one atome to another
vicinal
ionic bond
ethers
electrophile

21. Name for ethanal
2^n
acetaldehyde
diastereomers
racemic mixture

22. Carbon double bonded to an oxygen
carbonyl
hot - acidic potassium permanganate
ring strain
covalent bond

23. Not solvated
ozonolysis
aprotic solvent
Acetylene
sp3

24. When bond angles deviate from ideal values
Acetylene
electrophile
ring strain
angle strain

25. Name for propanal
triple bond
propionaldehyde
polymerization
nucleophile

26. Arise from angle strain - torsional strian and nonbonded strain
propionaldehyde
ring strain
geminal
Vinyl

27. Spatial arrangement of the atoms or groups of a sterioisomer
polymerization
covalent bond
configuration
methylene

28. Reaction of alkane with oxygen to form carbon dioxide - water and heat.
Combustion
methylene
Ignored
angle strain

29. Electrons of pi bond are reactive and easily attacked by molecules that want e pair e.g. electrophiles.
sp3
meso compound
electrophilic addition
hydroboration

30. A sigma bond and two pi bonds
peroxycarboxylic acid
triple bond
optical activity
carboxylic acid

31. More likely it is to attract positively charged proton. nucleophilic strength decreses: RO->HO>RCO2>ROH>H2O
chiral
basicity
Alkyne
aprotic solvent

32. When two p orbitals line up in parallel and electron clouds overlap. it exsits over a single bond.
saturated hydrocarbon
peroxycarboxylic acid
pi bond
diol

33. Describes the exact spatial arrangement of groups of atoms independent of other molecules.
disproportionation
electrophilic addition of X2
ozonolysis
absolute configuration

34. F - CL - Br - I
acetaldehyde
halogen
ketone
electrophilic addition of HX

35. When two atomic orbitals combine. obtained mathematically by adding or subtracting wave functions. if sings are the same - make bonding - if different - less stable antibonding.
protic solvent
enantiomer
molecular orbital
Alkane

36. Goal is to produce most stable carbocation

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37. Two hydroxyl groups
polymerization
diol
meso compound
hydroboration

38. Highest energy no separation. or 120 separation.
ozonolysis
methylene
sigma bond
eclipsed conformation

39. Reducing an alkene by adding molecular hydrogen to double bond with aid of metal catalyst. e.g. pt - pd - ni. takes place on surface of metal so it does syn addition
electrophile
nonbonded strain
amines
catalytic hydrogenation

40. A molecule with an internal plane of symmetry
aldehyde
meso compound
polymerization
C3H8 + 5O2 = 3CO2 + 4H2O + heat

41. Contain carbon carbon double bonds. Use same root of alkane but end with 'ene'
specific rotation
Alkene
halogenation
absolute configuration

42. Propylenes attached to a backbone at the C-3 position. Meaning the double bond at end of the chain and single bonded carbon at rest
molecular orbital
vicinal
allyl
carboxylic acid

43. Occur when a molecule is broken down by heat. used to reduce the avverage molecular weight of heavy oils. c - c - bonds are cleave dand make small chain alkyl radicals that recombine to form different alkanes
ethers
not ignored
pyrolysis
Haloalkane

44. Same chemical formula. same atomic connectivity . different in how atoms are arranged in space
markovnikov's rule
Vinyl
basicity
stereoisomers

45. Compounds with halogen
Haloalkane
ionic bond
amines
vicinal

46. Moleculse that have the opposite configuration at their one chiral center. or if multiple chiral centers - must have the opposite configuration at every one of their chiral centers to be enantiomers. identical physical properties and much of the same
alkyne
pi bond
enantiomer
hot - acidic potassium permanganate

47. When a molecular orbital is formed head to head or tail to tail. all single bonds are tehese.
electrophilic addition
enantiomer
sigma bond
oxidation

48. N - l - ml - ms
Alkane
stereoisomers
angle strain
quantum numbers

49. Most similar. same molecule only at different points in their rotation. show them with newmans projections
absolute configuration
stereoisomers
conformational isomer
peroxycarboxylic acid

50. A = observed rotation / concentration * length
angle strain
disproportionation
specific rotation
structural isomers