Organic Chemistry

Question 1

Elements of Unsaturation

Answer 1

(CnH2n+2) - X

1 db= 1 unsat 1 tb = 2 unsat 1 ring=1 unsat

Question 2

Boilping point

Answer 2

BP increases with incrased carbons. polar groups (EN atoms) will incnrease BP the heavier the polar group the higher the BP hydrogen bonds increase BP the most

Question 3

Nucleophile

Answer 3

Lewis base (electron donor with bond formation)

Question 4

electrophile

Answer 4

lewis acid (electron acceptor)

Question 5

Conjugate bases + Stability

Answer 5

Stronger an acid, the more stable it’s conjugate base. Stability due to: 1. HIgher EN of an atom in conjugate base (applies for atoms in same row) 2. larger size (size applies for atoms in same column) 3. resonance stabilization

Question 6

Common naming method

Answer 6

1C: form- 2C: acet- 3C: propion- 4C: butyr-

Question 7

What is dis

Answer 7

Glycine

Question 8

Answer 8

Alanine

Question 9

Answer 9

serine

Question 10

Answer 10

aspartic acid

Question 11

Answer 11

cysteine

Question 12

Answer 12

Amine

Answer 13

imine

Question 14

Answer 14

amide

Question 15

Answer 15

thiol

Question 16

homolytic bond cleavage

Answer 16

one electron of the bond being broken goes to each fragment of the molecule

Question 17

heterolytic bond cleavage

Answer 17

both electrons of the bond end up on the same atom (forms anion and cation)

Question 18

anti conformation

Answer 18

largest group is 180 degrees apart

Question 19

gauche conformation

Answer 19

larger group is 60 degrees apart

Question 20

chair conformation stability

Answer 20

substitued groups are more stable in equatorial position

Question 21

number of possible isomers formula

Answer 21

2^n chiral centers

Question 22

enantiomer

Answer 22

non superimposable mirror images

RR/SS + SS/RR

Question 23

diasteriomers

Answer 23

superimposible

SS/RR + RS/SR

Question 24

melting point and boiling point of hydrocarbons

Answer 24

branching decreases

increased weight increases

Question 25

Free Radical Halogenation

Answer 25

Initiation: X-X >>hv>> X* + X*

Propagation R-H + X* >>> R* + HX

R* + X–X >>> R—X + X*

Termination: X* + X* = X–x

R* + R* >>>> R-R

R* + X* >> R–X

Peroxides inhibit this rxn

Racemized product

Question 26

Nucleophilicity

Answer 26

Increases as - charge increases

increases going down periodic table in a group: F<cl></cl>

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going left in the periodic table</p>

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opposite of electronegativity trend</p>

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Question 27

Sn2 Reaction

Answer 27

Reactivity of Substrate: CH3>> 1 >> 2 >> 3 (steric hindrance

stereochemistry: inversion

reaction rate= k [nuc][electro]

polar aprotic (no Hbonds)

strong non bulky nucs

Question 28

Sn1 Reaction

Answer 28

Reactivity of substrate: 3>>2>>1

stereochem: racemization

reaction rate= k[electro]

protic Hbonding solvens

carbocation rearrangements take place

nonbasic weak nucs

Question 29

E1 Reactions

Answer 29

3>> 2>> 1

stereochem: most substituted double bond trans over cis

reaction rate = k [haloalkene]

solvent: protic Hbonders

carbocation rearangement

weak bases high temp

Question 30

E2 Reactions

Answer 30

3 >> 2 >> 1

stereochemistry: small bases yield most substituted; bulk yields least substituted

reaction rate= k[base][substrate]

polar aprotic non hbonder solvents

no rearrangements

strong bases;

Question 31

Addition of Hydeogen halide to Alkene

Answer 31

marvoinokov addition of halide

alkene is nucleophile

Question 32

Oxymercuration demercuration

Answer 32

markovinokov addition of OH

Question 33

Hydrohalide addition to alkene in peroxides

Answer 33

anti markovinokov addition of BR

Question 34

hydroboration oxidation

Answer 34

antimarkovinokov addition of OH

* 1.BH3 if this is the only step BH2 is added antimarkovinovoley

2. h2o2, -oh

Question 35

Hydration of alkenes

Answer 35

markovinokov addition of OH

Question 36

Halogenation of Alkenes

Answer 36

chlorine or bromine

adds anti addition

racimization

Question 37

epioxide formation from alkenes

Answer 37

alkene + peroxyacid = epoxide + carboxylic acid

Question 38

MCBPA epoxidation with acidic/basic hydrolysis

Answer 38

If H20 is added after you get a transdiol

Question 39

Potassium Permangate alekene reaction(s)

Answer 39

if basic solution added: cis-diol

if acidic solution added: cleavage into ketones/aldehydes

Question 40

Hydrogenation (with Ni/Pd/ or Pt) of alkenes

Answer 40

syn- addition of H-H MUST USE CATALYST

Question 41

hydrogenation of alkyne (H2 and catalyst)

Answer 41

complete halogenation

Question 42

hydrogenation of alkyne with lindlar

Answer 42

syn addition

Question 43

alkene + Na, NH3(l)

Answer 43

trans addition

Question 44

Aromatic Substitution of benzene

Answer 44

halogenation: Ph-H + Cl2/ AlCl3 or Br2/FeBr3 >>>> Ph-Cl + HCl or Ph-Br + HBr

Nitration: Ph-H + HNO3 + H2SO4>>>> Ph-NO2 + H20

Alkylation: PhH + RCl/AlCl3 >>> Ph-R + HCl

Question 45

Ring Activation groups

Answer 45

increase bonding to benzene;

lone pair of electrons on atom directly bonded to ring (electron donation group)

ortho para directors (halogens do this as well)

Question 46

Ring deactivation groups

Answer 46

decrease bonding to benzene

+ charge or no electrons

electron withdrawing

meta directors

Question 47

Reduction of aldehydes, carboxylic acids, ketones, and esters

Answer 47

carboxylic acids, esters, aldehyde: primary alcohol

ketone: secondar alcohol

Question 48

Gringard reagents and carbonyl groups

Answer 48

reduces carbonyl to OH and adds the R group

Question 49

Forming alkyle halides from Alcohols

Answer 49

ROH+ SOCl2 >> RCL

ROH+ PBR3 >> RBr

ROH+ HCl >> RCl + H2O

ROH + Cl2 >>> No reacion

hydroxide is a bad leaving group

Question 50

PCC and primary alcohol

Answer 50

Changes OH to carbonyl; loses H+

Question 51

secondary alcohol and pcc/kmno4

Answer 51

ketone

Question 52

Wittig Reaction

Answer 52

changes ketone to Alekene bond

Question 53

Imine Formation from ketone/aldehyde

Answer 53

Replaces O with N-R’

Question 54

aldol condesation

Answer 54

basically doubles the molecule and one =O >> to -OH

iif and heat is added the OH (dehydration) is removed and forms a double bond

Question 55

Carboxylic acid acidity

Answer 55

stability of the carboxylate ion makes carboxylic acids more acidic than alcohols

EWG increase acidity; EDG decrease acidity

Question 56

Reduction of Carboxylic acids

Answer 56

yields primary alcohol

Question 57

Carboxylic Acid to Acid chlorides

Answer 57

adding SOCL2, PCl3, PCl5

Question 58

carboxylic acid to acid anhydride

Answer 58

R’COOH + RCOCL + Pyridine >>> RC=OOC=OR’ +PyridineCL

Question 59

Carboxylic acid + alcohol

Answer 59

esterification; must be in acidic environment

Question 60

Acid chloride + ammonia

Answer 60

forms amide basically replace Cl with NH2

Question 61

Ester + amine

Answer 61

amide.

can be substituated

Question 62

Reactivity of Carboxylic Acid derivatives

Answer 62

Question 63

Saponification

Answer 63

Question 64

Esters to Alcohols

Answer 64

RO=COR’ >>reducing agent>> RCOH + R’OH