Alkanes

Question 1

What are the reactivity of alkanes like?

Answer 1

Very unreactive

Question 2

What can alkanes be used for?

Answer 2

Starting material for other reactions

Fuels

Lubricants

Question 3

What is the main source of alkanes?

Answer 3

Crude oil

Question 4

What is the general molecular formula of ringed alkanes?

Answer 4

CnH2n

Question 5

Describe the polarity of alkanes

Answer 5

Almost non-polar because the electronegativities of carbon and hydrogen are so similar

Question 6

What intermolecular forces are present in alkanes?

Answer 6

Wan der Vaals forces

Question 7

Describe the boiling points of alkanes

Answer 7

Boiling point increases as the carbon chain length increases due to more electrons and stronger Van Der Waals forces

Question 8

What is the state of alkanes with a chain length of 0-5 carbons?

Answer 8

Gas

Question 9

What is the state of an alkane with a chain length of 5-18 carbons?

Answer 9

Liquid

Question 10

What is the state of an alkane with a chain length of >18 carbons?

Answer 10

Solid

Question 11

Why do branched alkanes have a lower boiling point than straight chained alkanes?

Answer 11

They cannot pack as close together as straight chained alkanes can which makes the Van der Waals forces less effective

Question 12

Describe the solubilities of alkanes

Answer 12

Insoluble in water because the hydrogen bonds that hold water together are more strong than the Wan der Waals forces that hold together alkanes

They do mix relatively well with non-polar liquids

Question 13

Why are longer chain alkanes cracked?

Answer 13

They’re not as economically valuable as shorter chained alkanes and alkenes

Question 14

What are the conditions for thermal cracking?

Answer 14

Heating alkanes to a high temperature - 700-1200K

High pressure, up to 700KPa

Question 15

Outline the process for thermal cracking

Answer 15

C-C bonds break homolytically, producing two free radicals

Free radicals react to produce a range of shorter chained compounds

Question 16

How is further decomposition prevented in the thermal cracking of compounds?

Answer 16

The conditions are kept for a short time period

Question 17

Outline the conditions for catalytic cracking with the catalyst that is used

Answer 17

Lower temperatures - 720K

Lower pressures - more than atmospheric

zeolite catalyst - consisting of silicon dioxide and aluminium oxide

Question 18

What structure do zeolite catalysts have?

Answer 18

Honeycomb structure with a large surface area

Acidic

Question 19

Outline the practical procedure for catalytic cracking

Answer 19

Mineral wool soaked in light paraffin is at the end of a horizontal test tube with a beaker in it

Aluminium oxide catalyst is in the centre with heat being applies

Tubbing goes to an upside down test tube in a bucket filled with water

Mixture produced decolourises bromine water due to the presence of a double bond in the alkenes produced

Question 20

Outline the effects of the polluted gases that are produced via the combustion of burning hydrocarbons

Answer 20

-CO, poisonous gas produced via incomplete combustion

• Nitrogen oxides, NO, NO2 & N2O4 are produced when there is enough energy for nitrogen and oxygen to combine in the air
• N2 (g) + O2 (g) → 2NO (g)
• This happens in petrol engines at high temperatures, these oxides may react with water vapour and oxygen in the air to produce nitric acid
• They’re therefore contributors to photochemical smog and acid rain
• Sulfur dioxide is another contributor to acid rain
• Produced from sulfur containing impurities in crude oil
• Oxide combines with oxygen and water in the air to produce sulfuric acid

-Carbon particles, particulates, can exacerbate asthma and cause cancer

• Unburnt hydrocarbons can also enter the atmosphere and and are greenhouse gases
• They also contribute to photochemical smog
• Carbon dioxide is a greenhouse gas
• Water vapour is a greenhouse gas

Question 21

Outline flue gas desulfurisation

Answer 21

• Gases that leave power stations are called flue gases
• Many flue gasses contain SO2

1) A slurry of calcium oxide and water is sprayed onto the flue gas which reacts with the calcium oxide and water to form calcium sulfite, which can then be further oxidised to calcium sulphate (gypsum)
- CaO (s) + 2H2O (l) + SO2 (g) + 1/2 O2 (g) → CaSO4 (s) + CO2 (g)

OR

-Use calcium carbonate
CaCO3 (s) + 1/2O2 (g) + SO2 (g) → CaSO4 (s) + CO2 (g)

Question 22

Write the equation for the formation of sulfuric acid from sulfur dioxide

Answer 22

SO2 (g) + 1/2 O2 (g) + H2O (l) → H2SO4 (l)

Question 23

What is the structure of a catalytic converter?

Answer 23

A honeycomb structure made of ceramic material coated with platinum and rhodium metals (these are the catalysts)

Question 24

Write the general equation for the process that occurs inside a catalytic converter alongside an equation using examples

Write a third equation in the case of carbon monoxide

Answer 24

Hydrocarbons + nitrogen oxide → nitrogen + carbon dioxide + water

C8H18 + 25NO → 12 1/2N2 + 8CO2 + 9H2O

2CO (g) + 2NO (g) → N2 (g) + 2CO2 (g)

Question 25

Where do the reactions take place in catalytic converters?

Answer 25

On the surface of the catalytic converter on the layers of platinum and rhodium

Question 26

Write the equations for the depletion of the ozone layer

Answer 26

Cl2 → 2Cl•
Cl• + O3 → ClO• + O2
ClO• + O3 → 2O2 + Cl•

Question 27

Write the overall equation for the depletion of the ozone layer

Answer 27

2O3 → 3O2