10. Using Resources

Question 1

What are finite resources?

Answer 1

Those that are being used up at a faster rate than they can be replaced

Question 2

Examples of finite resources?

Answer 2

• oil
• coal
• gas
• gold
• helium

Question 3

What are renewable resources?

Answer 3

Those that can be replaced at the same rate at which they are used up

Question 4

Examples of renewable resources?

Answer 4

• biofuel
• tidal energy
• wind energy
• wood
• geothermal
• hydroelectric
• cotton

Question 5

What is sustainability?

Answer 5

Developments that meet the needs of today’s society, without endangering the ability of the future generations to meet their needs

Question 6

How long does wood take to form?

Answer 6

10 years

Question 7

How long does cotton take to form?

Answer 7

120-180 days

Question 8

How long does coal take to form?

Answer 8

10 to the power of 6 years

Question 9

What is wool used for?

Answer 9

Clothes, carpets

Question 10

What is cotton used for?

Answer 10

Clothes, textiles

Question 11

What is silk used for?

Answer 11

Clothes

Question 12

What is linseed oil used for?

Answer 12

Paint

Question 13

What is rubber used for?

Answer 13

Tyres

Question 14

What is wood used for?

Answer 14

Construction

Question 15

What is an alternative synthetic product to wool?

Answer 15

Acrylic fibre (polypropene)

Question 16

What is an alternative synthetic product to cotton?

Answer 16

Polyester

Question 17

What is an alternative synthetic product to silk?

Answer 17

Nylon

Question 18

What is an alternative synthetic product to linseed oil?

Answer 18

Acrylic resin

Question 19

What is an alternative synthetic product to rubber?

Answer 19

Various synthetic polymers e.g. polybutadiene

Question 20

What is an alternative synthetic product to wood?

Answer 20

PVC composites (MDF)

Question 21

Where do dissolved substances in rainwater come from?

Answer 21

As water reaches land it will dissolve substances it comes into contact with such as microorganisms from rocks and soil

Question 22

How does rainwater become acidic?

Answer 22

The rainwater will dissolve gases from the atmosphere such as CO2 and nitrogen dioxide which will make it acidic

Question 23

What is potable water?

Answer 23

Water that is safe enough to drink without it causing any health problems

Question 24

How is rainwater made potable?

Answer 24

• water passed through filter made of sand and gravel - remove insoluble particles e.g. mud
• passed through screen of crossed metal bars to stop large objects e.g. twigs
• left in settlement tank where sand and grit sink
• aluminium sulphate added - smaller particles clump together and sink
• larger particles removed
• sterilise - microorganisms are removed using chlorine and ozone
• pH corrected to neutral

Question 25

What is used to sterilise rainwater?

Answer 25

Chlorine and ozone

Question 26

How is sea water made potable?

Answer 26

Desalination

Question 27

What are the methods of desalination?

Answer 27

Distillation and reverse osmosis

Question 28

How is water desalinated using distillation?

Answer 28

• water is heated and evaporates, leaving dissolved salts behind
• water then cooled, condensed and collected

Question 29

Advantages of using distillation to desalinate sea water?

Answer 29

In hot countries solar power can heat the water

Question 30

Disadvantages of using distillation to desalinate sea water?

Answer 30

High energy costs to heat water

Question 31

How is water desalinated using reverse osmosis?

Answer 31

• water placed under pressure to overcome natural osmotic pressure
• water passes through semipermeable membrane, leaving the solute behind

Question 32

Advantages of using reverse osmosis to desalinate sea water?

Answer 32

No heating required

Question 33

Disadvantages of using reverse osmosis to desalinate sea water?

Answer 33

Energy needed to apply pressure

Salt water corrodes the pumps

Question 34

What are the sources of sewage?

Answer 34

• toilets
• bath/shower water
• washing machines
• dishwashers
• agriculture e.g. hydroponics

Question 35

Where does sewage water go?

Answer 35

To sewage treatment plants to make it safe before it can be returned to the environment, usually into rivers or the sea

Question 36

What is the process of treating sewage water?

Answer 36

• screened to remove large bits (twigs) and grit
• sedimentation - heavier solids sink to the bottom to produce sediment
• effluent floats on top
• effluent removed and treated by aerobic digestion
• sediment broken down by anaerobic digestion - producing methane which can be used as an energy source

Question 37

What is effluent?

Answer 37

Liquid waste

Question 38

What is aerobic digestion?

Answer 38

Where bacteria break down any organic matter

Question 39

What is anaerobic digestion?

Answer 39

A series of biological processes in which microorganisms break down biodegradable material in the absence of oxygen

Question 40

What does anaerobic digestion produce?

Answer 40

Methane gas which can be used as an energy source

Question 41

Advantages of treating sewage over desalination?

Answer 41

• use methane for energy
• use fertiliser afterwards
• use less energy

Question 42

Disadvantages of treating sewage over desalination?

Answer 42

People don’t like the idea of drinking water that used to be sewage

Question 43

What is a metal ore?

Answer 43

Ores are naturally occurring rocks that contain enough metal or metal compounds to make it economical to extract them

Question 44

What metals are said to be found native?

Answer 44

The least reactive ones e.g. silver, gold, platinum

Question 45

What is malachite?

Answer 45

A copper ore containing copper carbonate

Question 46

How is copper oxide produced from copper ore?

Answer 46

Thermal decomposition (smelting)

Question 47

What is smelting?

Answer 47

Thermal decomposition

Question 48

What is phytomining?

Answer 48

When plants absorb copper compounds through their roots and concentrate these compounds as a result. Plants can be burned to produce an ash that contains the copper compounds

Question 49

Advantages of phytomining?

Answer 49

• low cost
• plants can be easily monitored
• possibility of recovery and reuse of valuable metals
• potentially least harmful method because it uses natural occurring organisms

Question 50

Disadvantages of phytomining?

Answer 50

• limited to the surface area and depth occupied by the roots
• slow growth and low biomass require a long term commitment
• survival of plants is affected by toxicity of contaminated land and condition of soil
• contaminants into the plants can be passed on in food chain - so requires safe disposal

Question 51

What is bioleaching?

Answer 51

The process of using bacteria to dissolve metals instead of chemical solutions

Question 52

Advantages of bioleaching?

Answer 52

• simpler and cheaper to operate and maintain
• more environmentally friendly
• less landscape damage occurs
• bacteria can be cultivated and recycled
• can be to used extract from ores that are too poor for other technologies

Question 53

Disadvantages of bioleaching?

Answer 53

• bacterial leaching process is slow - bringing in less profit
• toxic chemicals are sometimes produced
• sulphuric acids and H+ ions that have been formed can sometimes leak into the ground turning it acidic

Question 54

What are some copper alloys?

Answer 54

Bronze and brass

Question 55

What is bronze made of?

Answer 55

Copper and tin

Question 56

What is brass made of?

Answer 56

Copper and zinc

Question 57

What is bronze used for?

Answer 57

• statues and decorative items

* ships, propellers

Question 58

Properties of bronze?

Answer 58

Strong, resistant to corrosion

Question 59

What is brass used for?

Answer 59

Hammered into intricate shapes, used to make musical instruments

Question 60

Properties of brass?

Answer 60

Harder than copper, still workable

Question 61

What are gold alloys used for?

Answer 61

Jewellery

Question 62

What is gold usually alloyed with?

Answer 62

Copper

Question 63

How do you find purity?

Answer 63

Divide carat number by 24 then multiply by 100

Question 64

Properties of aluminium alloys?

Answer 64

Low density, light weight but strong

Question 65

What are aluminium alloys used for?

Answer 65

• making aircraft

* armour playing for military vehicles

Question 66

What are steels?

Answer 66

Alloys of carbon that contain carbon and other metals

Question 67

Properties of high carbon steel?

Answer 67

Strong but brittle

Question 68

Properties of low carbon steel?

Answer 68

Softer and more easily shaped

Question 69

Which steels are hard and resistant to corrosion?

Answer 69

Steels with chromium and nickel (stainless steels)

Question 70

What happens to molecules during polymerisation?

Answer 70

• double bond between two carbon atoms is broken
• another ethene monomer bonds to the first (addition polymerisation)
• polymer chain grows and more ethene monomers bond
• branching occurs at high temperatures and pressures
• polyethene is formed

Question 71

What is the formula of polyethene?

Answer 71

CnH2n

Question 72

When does branching occur?

Answer 72

At high temperature and pressures, and if a catalyst is not used

Question 73

Properties of high density poly(ethene)?

Answer 73

• fewer branches
• strong intermolecular forces
• strong polymers, more rigid

Question 74

What is high density poly(ethene) used for?

Answer 74

Plastic bottles, bottle caps, water pipes

Question 75

Properties of low density poly(ethene)?

Answer 75

• more branched chains
• weaker intermolecular forces
• weaker, more flexible

Question 76

What is low density poly(ethene) used for?

Answer 76

Plastic bags, plastic wraps, cable insulation

Question 77

Which type of polymers can pack closely together?

Answer 77

Those with few or no branches such as polyethene. The chains are attracted to each other by intermolecular forces

Question 78

What type of plastics melt when heated?

Answer 78

Thermosoftening

Question 79

Properties of thermosoftening plastics?

Answer 79

• melt when heated
• no crosslinks between chains
• held together by only intermolecular forces
• low melting points
• more flexible

Question 80

Examples of thermosoftening plastics?

Answer 80

Poly(ethene), poly(propene) and poly(vinyl chloride)

Question 81

Properties of thermosetting plastics?

Answer 81

• do not melt when heated
• held together by strong covalent cross link bonding
• high boiling points
• more rigid

Question 82

Examples of thermosetting plastics?

Answer 82

Vulcanised rubber and Bakerlite

Question 83

What is corrosion?

Answer 83

The destruction of materials by chemical reactions with substances in the environment

Question 84

Example of corrosion?

Answer 84

Rusting

Question 85

What are necessary for iron to rust?

Answer 85

Oxygen and water

Question 86

What is sacrificial protection?

Answer 86

Iron could be coated with a more reactive metal. The zinc will corrode first, preserving the iron

Question 87

What happens to iron structures that are too large to be galvanised?

Answer 87

Blocks of more reactive metal can be attached to the iron structure. They must be replaced before it all dissolves

Question 88

What happens when aluminium is being corroded?

Answer 88

• aluminium is reactive and will quickly be oxidised

* aluminium oxide layer forms quickly and is not crumbly like iron oxide - acts like a protective coating

Question 89

Ways to prevent corrosion?

Answer 89

• painting/covering in plastic or oil
• sacrificial protection
• galvanising
• attaching a more reactive metal

Question 90

What is taken into account when considering the life cycle of a product?

Answer 90

• extracting and processing raw materials
• manufacturing and processing
• use and operation during its lifetime
• disposal at the end of its useful life

Question 91

How is a life cycle assessment carried out?

Answer 91

• listing energy and material inputs and outputs to the environment
• evaluating potential environmental impacts from inputs and outputs
• interpreting results to make decisions about material, process, service

Question 92

How is LCA data presented?

Answer 92

Collected into a single score (1-10) - requires subjective judgement - bias from people who paid for study

Question 93

What does the term reduce mean?

Answer 93

Lessening the use of limited resources to make materials

Question 94

What does the term reuse mean?

Answer 94

Reusing products to reduce the production of new materials from limited resources

Question 95

What does the term recycle mean?

Answer 95

The process of converting waste materials into new materials and objects

Question 96

How are glass bottles recycled?

Answer 96

They are crushed and melted to make different glass products

Question 97

How are metals recycled?

Answer 97

By melting and recasting ore reforming into different products

Question 98

Examples of metals that can be recycled?

Answer 98

• aluminium
• steel
• copper
• silver
• gold

Question 99

What is the difference between sacrificial protection and galvanising?

Answer 99

• galvanising means coating with a more reactive metal which is more corrosion-resistant i.e. it’s covered in a metal that doesn’t corrode
• sacrificial protection is when the reactive metal on top with oxidise instead of the metal underneath

Question 100

Is the Haber process reversible?

Answer 100

Yes

Question 101

What is the word equation for the Haber process?

Answer 101

Nitrogen + Hydrogen <> Ammonia

Question 102

What is the symbol equation for the Haber process?

Answer 102

N2 + 3H2 <> 2NH3

Question 103

Uses of ammonia?

Answer 103

• make fertilisers
• make explosives
• as a cleaning agent in aqueous solution

Question 104

What type of bonding occurs between molecules in ammonia?

Answer 104

Covalent

Question 105

Where does the nitrogen for the Haber process come from?

Answer 105

Air

Question 106

Where does the hydrogen for the Haber process come from?

Answer 106

Methane + steam

Question 107

What does the Haber process do?

Answer 107

Creates ammonia from nitrogen and hydrogen

Question 108

What are the conditions for the Haber process?

Answer 108

• temperature - 450*C
• pressure 200 atm
• iron catalyst

Question 109

What catalyst is used in the Haber process?

Answer 109

Iron catalyst

Question 110

What effect do medium temperatures have on equilibrium yield in the Haber process?

Answer 110

Temperature is decreased for an exothermic reaction so equilibrium shifts to the right in order to raise temperature and make more products

Question 111

What effect do medium temperatures have on rate in the Haber process?

Answer 111

Low temperatures would be cost effective but can’t conduct high rates of reaction - so slightly higher temperature is a compromise

Question 112

What effect do medium pressures have on equilibrium yield in the Haber process?

Answer 112

When pressure increases equilibrium shifts to the right so more products are formed

Question 113

What effect do medium pressures have on rate in the Haber process?

Answer 113

Higher pressures are more productive but not practical - expensive

Question 114

What effect does an iron catalyst have on equilibrium yield in the Haber process?

Answer 114

Won’t affect equilibrium

Question 115

What effect does an iron catalyst have on rate in the Haber process?

Answer 115

Increase rates of forwards and backwards reactions - reach equilibrium more quickly

Question 116

Why must minerals be soluble for plants?

Answer 116

So they can dissolve in water and plants can absorb them through their roots

Question 117

What are the minerals included in NPK fertilisers?

Answer 117

• nitrogen
• phosphorus
• potassium

Question 118

What are the ions needed by plants?

Answer 118

• nitrates - NO3-
• phosphates - PO3-
• potassium - K+

Question 119

How are fertilisers made?

Answer 119

• prepared in the lab
• reaction of an acid with a base in a neutralisation reaction
• salt solution evaporated until crystals form and these are filtered and dried

Question 120

What is the base in the neutralisation reaction when making synthetic fertilisers?

Answer 120

Ammonia

Question 121

Word equation for ammonium nitrate?

Answer 121

Ammonia + Nitric Acid -> Ammonium Nitrate

Question 122

Word equation for ammonium sulfate?

Answer 122

Ammonia + Sulfuric Acid -> Ammonium Sulfate

Question 123

Word equation for potassium nitrate?

Answer 123

Potassium + Nitric Acid -> Potassium Nitrate

Question 124

What are the sources of phosphate and potassium for fertilisers?

Answer 124

Potassium chloride + sulfide and phosphate rock are obtained by mining, but phosphate rock cannot be used directly as a fertiliser

Question 125

How is phosphate rock treated?

Answer 125

With nitric/sulfuric acid to produce soluble salts that can be used as fertilisers

Question 126

How does the production of fertilisers between the laboratory and in industry differ?

Answer 126

• lab is small scale; industry large scale
• lab - product made in batches; industry produces continuous flow
• lab - ammonia titrated with acid; industry - ammonia gas added to concentrated acid
• lab - dilute reactants; industry - concentrated reacntants
• lab - crystallisation; industry - heat from exo reaction used to evaporate water from mixture and give concentrated product

Question 127

What are the sources of most of the salts in NPK fertilisers?

Answer 127

• mining

* manufactured by reacting acids with bases