Benzene and Its Compounds

Question 1

compound with one or more benzene rings

Answer 1

arenes

Question 2

benzene compounds also known as

Answer 2

aryl/aromatic

Question 3

describe the benzene ring

Answer 3

each carbon benzene is sp2 hybridised = delocalised electrons
benzene shape is planar (120 degrees)
overlap of p orbitals above and below ring
delocalised electrons in pi bonds spread over all six carbon atoms

Question 4

describe kekule structure

Answer 4

benzene perfectly symmetrical hexagonal structure BUT C=C short
benzene cannot undergo addition reaction BUT structure has double bonds

Question 5

what type of reaction do benzene undergo

Answer 5

electrophilic substitution

Question 6

why does benzene only undergo certain reactions

Answer 6

high electron density
can only react with electrophiles but need halogen carrier
stable = pi bonding system

Question 7

why is alkenes able to react whereas benzenes cannot

Answer 7

higher electron density

Question 8

observation when arenes are combusted

Answer 8

smoky flames

Question 9

describe halogenation of benzene (benzene + Br2)

Answer 9

anhydrous iron (III) bromine/chlorine catalyst
electrophile (Br+) made by FeBr3 polarise Br2
electrophile and benzene react to form positive ion which turns into neutral molecule

Question 10

draw the mechanism of benzene + Br2

Answer 10

picture

Question 11

how do we get 4- chloromethyl benzene

Answer 11

chlorine gas and anhydrous aluminium chloride catalyst

halogenmethyl-benzene

Question 12

which positions are activated with methylbenzene and cl2/br2

Answer 12

2,4,6 (excess)

OR 2/4

Question 13

how do we get chloromethylbenzene ( substitution in methylchain)

Answer 13

UV light
chlorine gas
boiling methyl benzene

Question 14

conditions for nitration of benzene

Answer 14

Concentrated nitric acid
Concentrated sulfuric acid
Reflux
55C

Question 15

describe nitration of benzene process

Answer 15

making electrophile (NO2+) by HNO3 + H2SO4
high electron dense pi bonding attracts electrophile
pair of electrons donate

Question 16

what positions do NO2 group activate

Answer 16

3, 5 and deactivates 2,4

Question 17

describe process of alkylation of benzene

Answer 17

alcl3 catalyst + halogenoalkane

carbocation added to benzene ring

Question 18

which positions do carbocations substitute into methylbenzene

Answer 18

1,3 -
1,4 -
higher temperature produced more 1,3 -

Question 19

describe hydrogenation of alkylbenzene (reduction)

Answer 19

nickel catalyst
150 degrees
hydrogen gas

Question 20

alkylbenzene + hydrogen gas

Answer 20

→ cyclohexane

Question 21

how are side chains oxidised

Answer 21

reflux in acidified potassium manganate (VII)/acidified potassium dichromate + dilute h2so4

Question 22

products of oxidising side chains on benzene

Answer 22

carboxylic acid

Question 23

describe phenol

Answer 23

high melting point
slightly soluble due to hydrogen bonding OH
weakly acidic
more reactive than benzene

Question 24

why is phenol so reactive

Answer 24

oxygen lone pair delocalised in ring
greater electron density around ring
benzene ring is activated
attracts electrophiles

Question 25

rate on weak acidity
water
ethanol
phenol

Answer 25

phenol is the strongest

ethanol is the weakest

Question 26

comment on dissociation with weak acids/strong acids

Answer 26

weak partially dissociates - some stays as acid and some stays as ions
strong completerly dissociates

Question 27

why is phenol a weak acid (don’t be confused with reactivity)

Answer 27

phenoxide ion has negative charge spread - reduces charge density and negative ion is stable = stays as ions

Question 28

why is phenol a strong acid than ethanol

Answer 28

ethanol has electron donating group that concentrates negative charge on oxygen - making it more attracted to hydrogen and able to reform

Question 29

what are the reactions with phenols (4)

Answer 29

Phenol + NaOH → salt + water
2Phenol + Na → 2salt + hydrogen gas
Phenol + Na2CO3 → NaHCO3 + sodium phenoxide
Phenol + 3Br2 → 2,4,6-tribromophenol (white ppt.) + 3HBr

Question 30

how do you produce 2,4,6 trinitrophenol

Answer 30

room temperature

dilute nitric acid

Question 31

what are electron donating groups

Answer 31

alkyl groups

Question 32

what are electron withdrawing groups

Answer 32

electronegative groups