Haloalkanes

Question 1

Describe the atom economy of radical substitution

Answer 1

Radical substitution gives a relatively poor atom economy as it produces a large proportion of unpredictable waste products.

Question 2

Describe the atom economy of electrophilic addition

Answer 2

100%

Question 3

Compare the reactivity of haloalkanes and alkanes

Answer 3

Haloalkanes are more reactive as halogens are electronegative so form polar bonds which can be attacked by nucleophiles.

Question 4

Why are fluoroalkanes not reactive?

Answer 4

C-F bonds have an extremely high bond enthalpy so are not easily broken.

Question 5

Define hydrolysis.

Answer 5

A chemical reaction involving water or aqueous OH- ions which cause the breaking of a bond in a molecule

Question 6

What is a haloalkane hydrolysis reaction?

Answer 6

A reaction in which the halogen atom on an alkane is substituted for an OH group

Question 7

What are the conditions for the hydrolysis of a haloalkane?

Answer 7

Heat under reflux

Question 8

Define a nucleophile.

Answer 8

An electron rich species which is attracted to an electron deficient centre where it can provide a lone electron pair for the formation of a new covalent bond.

Question 9

What is the name of the reaction mechanism for the hydrolysis of haloalkanes?

Answer 9

Nucleophilic substitution

Question 10

Describe the mechanism of nucleophilic substitution in haloalkanes.

Answer 10

A nucleophile (eg. OH-) is electrostatically attracted to a delta + charge on a carbon atom which is involved in a polar bond with a halogen atom. The C-X bond breaks heterolytically to leave an X- ion and a new C-OH bond.

Question 11

What details must be included when drawing the reaction mechanism of nucleophilic substitution.

Answer 11

Delta charges on the atoms in the polar C-X bond
A curly arrow from the C-X bond to the X atom
A lone electron pair and negative charge on the nucleophile
A curly arrow from the lone electron pair to the delta + charge on the carbon atom

Question 12

What type of bond breaking occurs in nucleophilic substitution?

Answer 12

Heterolytic

Question 13

Give the order of the rate of hydrolysis of the haloalkanes.

Answer 13

iodo > bromo > chloro

Question 14

Explain the reactivity of chloroalkanes.

Answer 14

Despite C-Cl bonds being most electronegative and so the most susceptible to nucleophiles, they also have the highest bond enthalpy and so require more energy to break apart in a reaction.

Question 15

Explain the reactivity of iodoalkanes.

Answer 15

Although C-I bonds are the least electronegative, they are the weakest of C-X bonds and so are most easily broken in reaction.

Question 16

Describe a method to determine the relative hydrolysis rates of haloalkanes.

Answer 16

Three drops of three different haloalkanes (Cl, I and Br) are added to separate boiling tubes, each with the same volume of ethanol. The boiling tubes are placed in the same hot water bath. Silver nitrate solution is added to each test tube in equal quantities at the same time as a stopwatch is started. Time is taken for each reaction to produce a precipitate.

Question 17

Describe the purpose of ethanol in the hydrolysis of haloalkanes.

Answer 17

It acts as a co-solvent between the haloalkane and the OH- ions.

Question 18

Describe the purpose of silver nitrate solution in the hydrolysis of haloalkanes

Answer 18

It provides the OH- ions for the reaction to take place, and Ag+ ions, which react with the halide ions that are released in the reaction to form a AgX precipitate which makes the reaction visible.

Question 19

Why is a hot water bath used in the hydrolysis of haloalkanes?

Answer 19

To increase reaction rate.

Question 20

Where in the atmosphere is ozone found?

Answer 20

The stratosphere

Question 21

Give two equations for the formation of ozone.

Answer 21

O2 –(uv)–> 2O•

2O• + 2O2 —> 2O3 (+ heat)

Question 22

What is ozone?

Answer 22

O3

Question 23

Give an equation to show the breakdown of ozone by UV radiation

Answer 23

O3 —(uv)—> O2 + O•

Question 24

Describe the concentration of ozone in the atmosphere.

Answer 24

It is constant, as an equilibrium has formed between ozone and O2 + O•. Ozone is constantly being created and broken down.

Question 25

What is the function of ozone?

Answer 25

To protect us from UV radiation by absorbing the energy from it in order to break bonds

Question 26

What are the dangers of UV radiation?

Answer 26

Extreme sunburn and a risk of cancer developing due to ionising radiation.

Question 27

What are CFCs?

Answer 27

Chloro fluoro carbons

Question 28

What are CFCs used for and why?

Answer 28

Aerosol propellants and refrigerants because they are volatile but chemically inert.

Question 29

What is photodissociation?

Answer 29

The process of a CFC being broken down by UV radiation to give a chlorine radical.

Question 30

How do Cl radicals break down ozone?

Answer 30

Cl• + O3 —> ClO• + O2

ClO• + O —-> Cl• + O2

Question 31

What role does Cl• take in the breakdown of ozone?

Answer 31

It acts as a catalyst