Fuels

Question 1

(1) Which row of the table describes propene?

Answer 1

hydrocarbon, unsaturated

Question 2

(2) Propene can form the polymer poly(propene).
Draw a diagram to show the part of a poly(propene) molecule formed from two
propene molecules.

Answer 2

correct repeating unit(1)
• two correct units shown with
continuation bonds (1)

Question 3

(2) ) Describe a test that shows that molecules of propene contain carbon to carbon double
bonds.

Answer 3

bromine (water) (1)
• (bromine water) turns (from
orange) to colourless/or is
decolourised (1)

Question 4

(1) C10H22 → 2C3H6 + C4H10
decane propene butane
Give the total mass of products formed if 17 g of decane is cracked in this way

Answer 4

17 (g)

Question 5

(2) Explain what is meant by cracking.

Answer 5

break down of hydrocarbons /
large molecules / alkanes (1)
• into small(er) molecules (1)

Question 6

(2) Explain why it is necessary to crack crude oil fractions that contain large
molecules.

Answer 6

less demand for (fractions
containing) large molecules ORA
(1)
• large molecules are less useful
ORA (1)

Question 7

(2) Suggest two reasons why it is usually difficult to burn different hydrocarbon fuels
efficiently in the same appliance.

Answer 7

• fuels can be in different
states / specific example
• different sized molecules(1)
• different viscosities (1)
• different boiling point /
vaporisation temperatures
(1)
• different ease of ignition
/some fuels more flammable
(1)
• different amounts of air /
oxygen needed (1)

Question 8

(1) The fuels that can be used in the stove are obtained by the fractional distillation of
crude oil.
Which of these statements about the fractions obtained by the fractional distillation
of crude oil is correct?

Answer 8

diesel oil is used as a fuel for some trains

Question 9

(3) Ethane, C2H6, is present in crude oil.

Write the balanced equation for the complete combustion of ethane.

Answer 9

2C2H6 + 7O2 → 4CO2 + 6H2O
• reactant formulae (1)
• product formulae (1)
• balancing correct formulae
(1)

Question 10

(6) ) Petrol is the fuel used in many car engines.
Research is being carried out into the use of hydrogen instead of petrol.
Evaluate the advantages and disadvantages of using hydrogen rather than petrol as a
fuel for cars.

Answer 10

Advantages
• plenty of water / raw material
• limited supplies of crude oil
• hydrogen produces only water as waste
• petrol produces carbon dioxide
• carbon dioxide (emissions) may cause global warming
Disadvantages
• hydrogen has to be produced
• requires energy / electricity to produce it
• producing electricity from non-renewable sources produces
carbon dioxide
• expensive to produce
• problems of storage of large volumes of flammable gas
• stronger / heavier / bigger tanks needed
• hydrogen a gas, petrol a liquid, hydrogen leaks more likely
• limited outlets / conversion costs
• shorter distance between refuelling

Question 11

(1) Which of the following statements is true

Answer 11

molecules in diesel are larger than molecules in petro

Question 12

(2) Explain what is meant by cracking.

Answer 12

• break down of
(hydrocarbons/molecules
/ alkanes) (1)
• into smaller
(hydrocarbons/molecules
/ alkanes) (1)

Question 13

(3) Explain why ethene is described as an unsaturated hydrocarbon

Answer 13

(molecule) containing
(carbon-carbon) double /
multiple bond (1)
• contains (atoms of)
carbon and hydrogen (1)
• only (1)

Question 14

(2) Describe what you would see when a sample of ethene is shaken with
bromine water

Answer 14

from
orange/brown/yellow (1)
• to colourless (1)

Question 15

(6) Explain how the presence of sulfur in fossil fuels can lead to damage to the
environment and how the amount of damage can be reduced.

Answer 15

cause of acid rain
• burning sulfur
• produces sulfur dioxide
• escapes into atmosphere
• dissolves in rain water
• forming acidic solution / sulfurous / sulfuric acid
• falls to the ground as acid rain
effect of acid rain
• acidification of lakes
• kills fish
• kills trees / forests
• damage / erosion of stonework
reduction of damage
• calcium carbonate
• from limestone
• may be converted into calcium hydroxide
• waste gases from power stations
• passed through carbonate or hydroxide
• removing sulfur dioxide

Question 16

(1) Natural gas is a good fuel because

Answer 16

it produces no solid waste on complete combustion

Question 17

(2) The complete combustion of fossil fuels releases gases into the atmosphere.
Explain how these gases could cause an increase in the temperature of the Earth

Answer 17

carbon dioxide / water
vapour (released into the
atmosphere) (1)
• absorbs OWTTE heat
(radiated from Earth)(1)

Question 18

(1) State an advantage of replacing fossil fuels with biofuels made from plants

Answer 18

(biofuels) renewable / plants
remove carbon dioxide from
atmosphere / conserves fossil
fuels

Question 19

(2) Explain a disadvantage of replacing fossil fuels with biofuels made from plants.

Answer 19

(growing crops for
biofuels) requires land (1)
• less land for food
production / less food /
deforestation / destroys
habitat / food prices
increase (1)

Question 20

(6) Incomplete combustion of methane can occur in gas heaters such as the one
shown in the photograph.
Explain how incomplete combustion occurs and the problems it can cause.

Answer 20

Production
• lack of / insufficient oxygen
• {blocked burner jets / poor servicing} leads to lack of oxygen
• poor ventilation leads to lack of oxygen
• complete combustion cannot take place
Product
• produces carbon / soot
• produces carbon monoxide
Effects
• wastes fuel
• soot stains / damages decorations etc
• soot causes health problems
• soot may block gas jets
• carbon monoxide is toxic
• combines with haemoglobin / forms carboxyhaemoglobin
• prevents blood carrying oxygen
• no oxygen reaches cells / no respiration / death

Question 21

(1) For which fractions does the demand exceed the supply?

Answer 21

LPG, petrol and diesel

Question 22

(2) Explain why cracking is needed.

Answer 22

use of {fractions / large molecules /
long chain hydrocarbons} of {less
demand / less useful / lower value}
/ ORA (1)
• to meet demand / small molecules
needed (1)

Question 23

(1) As the number of carbon atoms in the molecules of a hydrocarbon increases

Answer 23

the boiling point of the hydrocarbon

increases

Question 24

(1) What is the formula of a molecule of ethene?

Answer 24

C2H4

Question 25

(2) Ethene can be converted into poly(ethene).

Write a balanced equation for this reaction.

Answer 25

ignore n missing on polymer structure
LHS (1) RHS (1)
Allow:
n
(1)
(where X could be CH3 or similar

Question 26

(2) Explain why some people are concerned about the increase in the amount of
carbon dioxide in the atmosphere.

Answer 26

greenhouse gas / traps heat in
atmosphere (1)
• may lead to increasing global
temperature / global warming (1)

Question 27

(2) Explain how the product of combustion of these sulfur impurities affects the environment.

Answer 27

sulfur dioxide formed (during
combustion of fuel) (1)
• sulfur dioxide {dissolves in rain /
forms acid (rain)} (1)
• an effect of acid rain e.g. harms
{fish / plants / statues / buildings} /
lowers pH of lakes (1)

Question 28

(2) Explain the difference between non-renewable and renewable fuels

Answer 28

Non-renewable
• e.g. fossil fuels (1)
• when used, not replaced (in a
reasonable time) / finite supply (1)
Renewable fuels
• produced {from plants / electrolysis
(to produce hydrogen)} (1)
• (therefore) when used, able to be
(quickly) replaced (1)

Question 29

(6) Evaluate the advantages and disadvantages of using bioethanol, instead of petrol,
as a fuel for cars.

Answer 29

Advantages of bioethanol
• is renewable / petrol is finite / takes a long time to form crude
oil
• crops to make bioethanol regrown quickly/takes a long time to
form crude oil
• use reduces demand on fossil fuels
• carbon dioxide is removed from air when growing crops (which
are used in ethanol production)
• may be sulfur impurities in petrol, none in ethanol / ethanol is
less polluting than petrol (does not produce sulphur dioxide )
• ethanol burns more completely, petrol does not
Disadvantages of bioethanol
• less readily available than petrol / fewer filling stations than for
petrol (in UK but not in some countries)
• lots of crops needed to generate sufficient fuel to replace petrol
• less farmland available for growing food crops
• currently few cars are built to run on bioethanolbioethanol fuel
(in cars) runs out faster / over shorter distances / less energy
efficient

Question 30

(3) Write the balanced equation for the overall reaction that takes place when the
hydrogen reacts with oxygen in the fuel cell.

Answer 30

2 H2 + O2 → 2 H2O (3)

Question 31

(1) Apart from the possibility of an explosion, state another disadvantage of using
hydrogen, rather than diesel, as a fuel for buses.

Answer 31

requires {electricity / energy} for
electrolysis (1)
• must be stored in {heavy / strong /
pressurised} cylinders (1)
• gas can escape easily (1)
• fewer fuel stations (1)

Question 32

(1) Crude oil is a mixture of mainly

Answer 32

hydrocarbons

Question 33

(1) Fuel oil is used as a fuel in

Answer 33

power station furnaces

Question 34

(3) Write the balanced equation for the complete combustion of methane.

Answer 34

CH4 + 2O2 → CO2 + 2H2O

Question 35

(1) When 1 g of methane is burnt, 56 kJ of heat energy is produced.
Calculate the heat energy produced when 1 g of octane is burnt.

Answer 35

48 (kJ) (1)
or
5472 /114 = 48 (kJ) (1)
or
5472/114 (1)

Question 36

(2) ) State two factors that make a good fuel.

Answer 36

easy to ignite / low boiling point /
low viscosity (1)
{burns readily/easily} /
(in)flammable(1)
not produce too much {soot/ash/
smoke} / burns with
{clean/blue} flame / burns
cleanly (1)
easy to {store/

Question 37

(2) Draw the structure of a propene molecule, showing all of the bonds

Answer 37

one C=C in a three consecutive
carbon atom molecule (1)
rest of structure correct, ignore
bond angles, conditional on first
marking point(1)

Question 38

(1) One molecule of decane, C10H22, can be cracked to produce one molecule of
propene and one molecule of an alkane X only.
The formula of a molecule of alkane X is

Answer 38

C7H16

Question 39

(3) Given a sample of each gas, describe a test to show which gas is propane and
which gas is propene.

Answer 39

add bromine (water) / aqueous
bromine (and shake the tube)(1)
stays orange / no change / does
not go colourless in
{propane/alkane} (1)
turns colourless / decolorises in
{propene/alkene} (1)

Question 40

(6) Explain how poly(propene) molecules are formed from propene molecules and
relate the properties of poly(propene) to its uses.

Answer 40

Making the polymer
many propene molecules
join/react together
form a long chain
polymerisation reaction
propene is the monomer
propene is unsaturated / has a double bond
poly(propene) has single bonds
propene is a gas and forms poly(propene) which is a solid
the C=C bond breaks / opens up

Properties of poly(propene) with related uses
e.g.
property – flexible, low density (lightweight), shatterproof, high
softening point, non-toxic, strong, tough, good insulator, water
proof, resistant to corrosion, long lasting, can be moulded into
shape, can be made into fibres
Uses of poly(propene)
use – to make plastic bags, packaging, buckets, bowls, food
containers, ropes, carpets, thermal underwear, Thinsulate
items, toys, bottles, bottle caps, laboratory equipment, medical
equipment, pipes, car bumpers, crates, furniture, tubing

Question 41

(1) ) One of the gases in the table is present in a much larger amount in today’s
atmosphere.
State the name of this gas

Answer 41

nitrogen

Question 42

(1) A gas not named in the table makes up about 21% of today’s atmosphere.
State the name of this gas

Answer 42

oxygen

Question 43

(1) The amount of carbon dioxide in the early atmosphere was reduced by

Answer 43

(the gas dissolving in oceans)

Question 44

(2) Explain why it is difficult to be certain about the composition of the Earth’s early
atmosphere.

Answer 44

no humans on Earth (1)
• no measurements taken
(1)
• different sources conflict
(1)
• websites may refer to
different times (1)

Question 45

(2) All of the oxygen in this sample of air reacted to form copper oxide.
After the reaction, the volume of gas remaining was 41cm3
.
Calculate the percentage of oxygen in this sample of air

Answer 45

50 – 41 (1) M1
(= 9)
9/50 x 100 (1) M2
(= 18)

Question 46

(1) ………………Cu + O2 → ………………CuO

Answer 46

2 Cu + O2 → 2 CuO

Question 47

(1) This fraction is more difficult to ignite than most other fractions and is used as
a fuel in large ships.

Answer 47

fuel oil

Question 48

(1) This fraction is obtained from the top of the fractionating column.

Answer 48

gases

Question 49

(1) This fraction has a higher boiling point than kerosene and is used as a fuel for
some cars.

Answer 49

diesel oil

Question 50

(1) Which of these cannot be a product of burning hydrocarbon fuels?

Answer 50

hydrogen

Question 51

(2) 2CH4 + …………….O2 → 2CO + …………….H2O

Answer 51

2CH4 + 3 O2 (1)

• 2CO + 4 H2O (1)

Question 52

(2) Explain how carbon monoxide can cause death.

Answer 52

(carbon monoxide)
combines with
haemoglobin/red blood
cells (1)
• lack of oxygen (to
brain/cells) (1)

Question 53

(2) Explain a problem caused by growing plants to produce biofuels.

Answer 53

uses up
(farm)land/space/area (to
grow crops for fuel) (1) M1
• less (farm)land to grow
crops for food (1) M2
• can cause food prices to
rise (1) M3
• (could lead to) food
shortages/famine/starvatio
n/
poverty (1) M4
• (could lead to)
deforestation/soil erosion
(1) M5

Question 54

(1) Which of the following statements about alkenes is correct?

Answer 54

alkenes are unsaturated

hydrocarbons

Question 55

(2) Explain a problem caused by the disposal of polymers.

Answer 55

non biodegradable (1)
persist in landfill sites (1)
OR
produce gases/fumes when
burnt (1) M1
gases may be toxic/harmful (1)
M2
OR
cannot be recycled (1)
new {raw material/crude oil}
needed (1)

Question 56

(6) Explain the properties required of a good fuel.

Answer 56

A good fuel should
 Burning considerations
• ignite easily
• burn easily
• release a lot of /sufficient heat energy when it
is burnt
Usage considerations
• be safe to use
• be safe/easy to transport
• be {safe/easy/convenient} to store
• be reasonably cheap
Supply considerations
• readily available/good supply
• be renewable/sustainable/not finite
Products considerations
• not produce (much) solid/ash when burnt
• not produce much/any smoke
• contain little/no sulfur
• not produce {toxic/harmful} gases/fumes
• carbon neutral
• not produce too much carbon dioxide or other
named gas such as sulfur dioxide or greenhouse gases

Question 57

(1) When the experiment is complete there is a danger that water will rise up the
delivery tube into the hot test tube.
State what you would do to prevent this

Answer 57

remove delivery tube from water

before stopping heating

Question 58

(1) C12H26 → C2H6 + C6H12 + X

X is

Answer 58

C4H8

Question 59

(1) State what is meant by unsaturated.

Answer 59

contains a {double/multiple}

bond

Question 60

(3) Propane and propene are bubbled through separate samples of bromine water.
Describe what you would see in these tests.

Answer 60

bromine water is orange
(1)
• propane: (remains) orange
/ no colour change (1)
• propene: becomes
colourless /decolourises
(1)

Question 61

(2) In industry, long chain hydrocarbon molecules are cracked to form shorter chain
hydrocarbon molecules.
Explain why this process is important.

Answer 61

shorter chain molecules are
more useful ORA (1)
• demand for shorter chain
molecules ORA (1)
• meets demand
• reduces the excess of longer
chain molecules (1)
• (cracking) produces alkenes
(1)
• alkenes used to make
polymers (1)

Question 62

(1) Which of these is the formula of a molecule of a hydrocarbon?

Answer 62

CH3CH3

Question 63

(2) Draw the structure of a molecule of propene, showing all covalent bonds.

Answer 63

carbon skeleton correct including
double bond (1)
rest of molecule correct (1)

Question 64

(3) Methane burns in oxygen to form carbon dioxide and water.
Write the balanced equation for this reaction.

Answer 64

CH4 + 2O2 → CO2 + 2H2O

Question 65

(6) Describe the advantages and disadvantages of using bio-methane rather than
natural gas as a source of energy.

Answer 65

advantages
• renewable / sustainable
• more plants can be grown
• crops use up carbon dioxide and produce oxygen
when growing /photosynthesising
• carbon neutral because the carbon produced during
combustion is used when growing the plants
• does not use up crude oil/non-renewable resources

disadvantages
• crops grown for bio-fuels use up land
• land could otherwise be used to provide homes / less
farmland available for growing food crops
• lots of crops required to provide a small amount of
bio-methane
• bad season reduces availability
• carbon emissions due to transport and production if
qualified