3.3 Halogenoalkanes

Question 1

Draw the displayed formula for 1-bromopropane

Answer 1

(see page 1 in the chemrevise revision guide)

Question 2

Draw the displayed formula for 2-chloro-2-methylbutane

Answer 2

(see page 1 in the chemrevise revision guide)

Question 3

Describe a primary halogenoalkane, draw an example.

Answer 3

One carbon is attached to the carbon adjoining the halogen.

see page 1 in the chemrevise revision guide

Question 4

Describe a secondary halogenoalkane, draw an example.

Answer 4

Two carbons are attached to the carbon atom adjoining the halogen.

(see page 1 in the chemrevise revision guide)

Question 5

Describe a tertiary halogenoalkane, draw an example.

Answer 5

Three carbons are attached to the carbon atom adjoining the halogen.

(see page 1 in the chemrevise revision guide)

Question 6

What two reactions do halogenoalkanes undergo?

Answer 6

Halogenoalkanes undergo either
- substitution
- elimination
reactions.

Question 7

Describe a substitution reaction in halogenoalkanes with words.

Answer 7

Swapping a halogen atom for another atom or group of atoms.

Question 8

What is a nucleophile?

Answer 8

Electron pair donator 
e.g.
\:OH- 
\:NH3
CN-

:Nu represents any nucleophile

Question 9

Which is fastest to substitute, iodoalkanes or fluoroalkanes? Explain why.

Answer 9

The rate of substitution reactions depends on the strength of the C-X bond.
The weaker the bond, the easier it is to break and the faster the reaction.

The iodoalkanes are the fastest to substitute and the fluoroalkanes are the slowest. The strength of the C-F bond is such that fluoroalkanes are very unreactive.

Question 10

What is the bond enthalpy in decreasing order of the halogenoalkanes in substitution reactions?

Answer 10

(see page 1 in the chemrevise revision guide)

Question 11

Draw the general mechanism for a nucleophilic substitution reaction.

Answer 11

(see page 1 in the chemrevise revision guide)

Question 12

Give the definition of hydrolysis.

Answer 12

Hydrolysis is defined as the splitting of a molecule by a reaction with water.

Question 13

Water is a _____ nucleophile but it can react _____ with halogenoalkanes in a ________ reaction.

Answer 13

Water is a poor nucleophile but it can react slowly with halogenoalkanes in a substitution reaction.

Question 14

How can the reactivity of the different halogenoalkanes in substitution reactions be recorded experimentally?

Answer 14

Aqueous silver nitrate is added to a halogenoalkane. The halide leaving group combines with a silver ion to form a silver halide precipitate.
The precipitate only forms when the halide ion has left the halogenoalkane and so the rate of formation of the precipitate can be used to compare the reactivity of the different halogenoalkanes.
The quicker the precipitate is formed, the faster the substitution reaction and the more reactive the halogenoalkane.

Question 15

Which precipitate forms faster (and what colour is each) in the hydrolysis reactions of halogenoalkanes:
AgI
AgBr
AgCl

Answer 15

(see page 2 in the chemrevise revision guide)

Question 16

When halogenoalkanes undergo a nucleophilic substitution with aqueous hydroxide ions what is the change in the functional group (like what product does it form)

Answer 16

halogenoalkane -> alcohol=

Question 17

When a halogeneoalkane reacts with aqueous hydroxide ions, what are the:

• conditions
• the reagent
• the mechanism
• the type of reagent

Answer 17

(see page 2 in the chemrevise revision guide)

Question 18

Draw the overall equation for when 1-bromopropane reacts with KOH.

Draw the mechanism for this reaction, giving the name of the mechanism.

Answer 18

(see page 2 in the chemrevise revision guide)

Question 19

Draw the overall equation for when 2-bromo-2-methylpropane reacts with KOH.

Draw the mechanism for this reaction, giving the name of the mechanism.

Answer 19

(see page 2 in the chemrevise revision guide)

Question 20

When halogenoalkanes undergo a nucleophilic substitution with cyanide ions what is the change in the functional group (like what product does it form)

Answer 20

halogenoalkanes -> nitrile

Question 21

When a halogeneoalkane reacts with cyanide ions, what are the:

• conditions
• the reagent
• the mechanism
• the type of reagent

Answer 21

(see page 3 in the chemrevise revision guide)

Question 22

Draw the overall equation for when 1-bromopropane reacts with KCN.

Draw the mechanism for this reaction, giving the name of the mechanism.

Answer 22

(see page 3 in the chemrevise revision guide)

Question 23

Write the structural formula for propanenitrile.

Answer 23

(see page 3 in the chemrevise revision guide)

Question 24

Draw the displayed formula for 3-methylbutanenitrile.

Answer 24

(see page 3 in the chemrevise revision guide)

Question 25

When halogenoalkanes undergo a nucleophilic substitution with ammonia what is the change in the functional group (like what product does it form)

Answer 25

halogenoalkane -> amine

Question 26

When a halogenoalkane reacts with ammonia, what are the:

• conditions
• the reagent
• the mechanism
• the type of reagent

Answer 26

(see page 3 in the chemrevise revision guide)

Question 27

Draw the overall equation for when 1-bromopropane reacts with NH3.

Draw the mechanism for this reaction, giving the name of the mechanism.

Answer 27

(see page 3 in the chemrevise revision guide)

Question 28

Why is there usually a lower yield when reacting a halogenoalkane with ammonia? What can we do to minimise this?

Answer 28

(see page 3 in the chemrevise revision guide)

Further substitution reactions can occur between the halogenoalkane and the amines formed leading to a lower yield of the amine. Using excess ammonia helps minimise this.

Question 29

When halogenoalkanes undergo an elimination reaction with alcoholic hydroxide ions what is the change in the functional group (like what product does it form)

Answer 29

(see page 4 in the chemrevise revision guide)

Question 30

When a halogenoalkane reacts with ammonia, what are the:

• conditions
• the reagent
• the mechanism
• the type of reagent

Answer 30

(see page 4 in the chemrevise revision guide)

Question 31

Draw the overall equation for when 1-bromopropane reacts with KOH.

Draw the mechanism for this reaction, giving the name of the mechanism.

Answer 31

(see page 4 in the chemrevise revision guide)

Question 32

Which performs which type of reaction:
- Aqueous
- Alcoholic
performing
- Elimination
- Substiution

Answer 32

Aqueous : substitution

Alcoholic : elimination

Question 33

read bottom of page 4 in the chemrevise revision guide.

Answer 33

understand?

Question 34

Describe an elimination reaction in words.

Answer 34

The removal of small molecule (often water) from the organic molecule.

Question 35

What are the uses of choroalkanes and chlorofluoroalkanes? Why have they now stopped being used?

Answer 35

Chloroalkanes and chlorofluoroalkanes can be used as solvents.
CH3CCl3 was used as the solvent in dry cleaning.
Many of these uses have now been stopped due to the toxicity of halogenoalkanes and also their detrimental effect on the atmosphere.

Question 36

What are some uses of halogenoalkanes?

Answer 36

Halogenoalkanes have also been used as refrigerants, pesticides and aerosol propellants.

Question 37

Give an entire explanation of ozone depletion. Including equations.

Answer 37

(see page 5 in the chemrevise revision guide)