Topic 15 - Using Resources

Question 1

What is the corrosion of iron called?

Answer 1

Rusting

Question 2

What is rust?

Answer 2

It is a layer of hydrated iron (III) oxide that forms in the presence of water and oxygen.

Question 3

How do we prevent rust?

Answer 3

Coating the iron or steel with:
paint
oil or grease
plastic
a less reactive metal
a more reactive metal

Question 4

What is the process of using Zinc to protect Iron?

Answer 4

Galvanisation

Question 5

How does sacrificial protection of iron work?

Answer 5

The zinc is more reactive than iron so it has a stronger tendency to form positive ions, as the zinc atoms lose electrons they become oxidised. Therefore, any water or oxygen reacts with zinc rather than iron.

Question 6

Apart from zinc, what other metals can be used to sacrificially protect iron?

Answer 6

Magnesium and aluminium

Question 7

What are alloys?

Answer 7

Mixtures of metals that have differently shaped and sized metal ions.

Question 8

Why do alloys have higher melting points than pure metals?

Answer 8

Due to the differently shaped and sized atoms, layers slip less easily as the layers are distorted.

Question 9

What was the first alloy made by humans?

Answer 9

Bronze, about 5500 years ago.

Question 10

What is bronze used for?

Answer 10

Statues + decorative items and ship propellers due to its toughness and resistance to corrosion.

Question 11

How is bronze made?

Answer 11

Mixing copper with tin.

Question 12

How is brass made?

Answer 12

By alloying copper with zinc.

Question 13

What are the properties of brass?

Answer 13

It is harder than copper but more malleable.

Question 14

What are the uses of copper?

Answer 14

It can be used to make musical instruments and door fittings and taps.

Question 15

What are aluminium alloys used for?

Answer 15

Building aircraft or armour plating.

Question 16

How is jewellery made?

Answer 16

Alloying gold with copper.

Question 17

How does gold alloy compare with pure gold?

Answer 17

Pure gold wears away more easily than its alloy with copper.

Question 18

How is gold purity expressed?

Answer 18

In carats, where 24 carats is 99.9% pure.

Question 19

What are steels?

Answer 19

Alloys of iron with carbon and/or other elements.

Question 20

What are carbon steels?

Answer 20

Steels made from removing carbon from the iron obtained in a blast furnace. They are the cheapest to make.

Question 21

What is high carbon steel?

Answer 21

A steel with a relatively high carbon content that is very strong but brittle.

Question 22

What is low carbon steel?

Answer 22

A steel that is soft and easily shaped that isn’t as strong but less likely to shatter on impact with a strong object.

Question 23

What are alloy steels?

Answer 23

Alloys made with steel for a particular use.

Question 24

What are stainless steels?

Answer 24

Steels that contain a much higher percentage of other metals made from chromium-nickel. They combine hardness and strength with great resistance to corrosion. They don’t rust so are used in cooking utensils and cutlery.

Question 25

What do properties of polymers depend on?

Answer 25

-The monomers used to make it.
-The conditions chosen to carry out the reaction.

Question 26

What are the two types of poly(ethene)?

Answer 26

High density and low density poly(ethene).

Question 27

How is low density poly(ethene) made?

Answer 27

Using very high pressures and some oxygen, ethene forms it. The polymer chains are randomly branched and cannot pack closely together, hence its lower density.

Question 28

How is low density poly(ethene) formed?

Answer 28

Using a catalyst at 50 degrees Celcius and a slightly raised pressure, ethene forms it. This is made up of straighter poly(ethene) chains.

They can pack more closely together than branched chains, hence its higher density.

It also has higher softening temperature and is stronger than low density.

Question 29

What are thermosoftening polymers?

Answer 29

Polymers that soften quite easily and then re-set when cooled down. They are made up of individual polymer chains that are tangled up together.

Question 30

What are thermosetting polymers?

Answer 30

Polymers that do not melt when we heat them. They have strong covalent bonds forming cross-links between polymer chains.

Question 31

What happens to forces in thermosoftening polymers?

Answer 31

Forces between polymer chains are weak. When you heat the polymer, the weak intermolecular forces are broken. The polymer becomes soft.

When it cools down, the intermolecular forces bring the polymer molecules back together. The polymer hardens again and it can be remoulded.

Question 32

What happens to forces in thermosetting polymers?

Answer 32

Their monomers make covalent bonds between chains when first heated. They are strong and stop the polymer from softening. The cross links between chains do not allow them to separate. Even if heated strongly it won’t soften, it will eventually char at high enough temperatures.

Question 33

What is glass made of?

Answer 33

Mainly sand, Silicon dioxide, limestone and soda.

Question 34

How is glass formed?

Answer 34

Raw materials are heated to 1500 degress celcius. At high temperatures they melt and react to form molten glass. As it cools it becomes solid. The particles seem frozen in place.

Question 35

What are some examples of ceramics?

Answer 35

Bricks, tiles, crockery, bathroom sinks, baths and toilets.

Question 36

What are clay ceramics like?

Answer 36

Hard but brittle materials that are electrical insulators and resistant to corrosion.

Question 37

How are clay ceramics made?

Answer 37

Moulding wet clay into the desired shapes and heating them with a furnace to around 1000 degrees celcius.

Question 38

What do clay ceramics contain?

Answer 38

Compounds of metal like aluminium and potassium and non-metals like silicon and oxygen, with ionic bonding between ions, but also some covalent bonding. They are arranged in giant structures that form layers.

Question 39

What are composites?

Answer 39

Made of two materials, making a product with improved properties for a particular use. They are often a matrix of one material surrounding and binding another.

Question 40

What are composites like?

Answer 40

They are tough and flexible like fibreglass made of fine threads of glass embedded in a polymer resin that hardens once moulded into shape. It forms a tough, flexible and waterproof material with a low density.

Question 41

What examples of composites are there?

Answer 41

Fibreglass
Wood
Concrete

Question 42

What is wood made from?

Answer 42

Thin sheets of wood glued together with grain in successive layers running at angles to each other.

Question 43

What is concrete made of?

Answer 43

Cement, gravel, sand and water left to set.

Question 44

What is ammonium nitrate used for?

Answer 44

As a fertiliser by farmers to replenish nutrients for crops.

Question 45

How is ammonia collected?

Answer 45

From nitrogen gas in the Haber process.

Question 46

What resources are needed for the Haber process?

Answer 46

Nitrogen from the air
Hydrogen from natural gas

Question 47

What temperature and pressure is used for the haber process?

Answer 47

450 degrees C and 200 atmospheres.

Question 48

What type of reaction is the Haber process?

Answer 48

A reversible reaction

Question 49

What happens during the Haber process?

Answer 49

Ammonia gas breaks down into nitrogen and hydrogen and ammonia is formed by them at the same time.

Ammonia is removed by cooling gases so the ammonia liquifies and can be separated.

Unreacted nitrogen and hydrogen gases are recycled back into the reaction mixture. They are then re-compressed and heated before returning to the reaction vessel. There they have a chance to react again.

Question 50

What is the word equation for the Haber process?

Answer 50

Nitrogen + hydrogen <–> iron catalyst <–> ammonia

Question 51

What is the symbol equation for the Haber process?

Answer 51

N2 (g) + 3H2 (g) <–> Fe catalyst <–> 2NH3 (g)

Question 52

What reaction is carried out to get the hydrogen used in the Haber process?

Answer 52

methane + steam –> hydrogen + carbon monoxide

Question 53

What is the effect of increases pressure on the Haber process?

Answer 53

Due to Le Chatelier’s Principle, since ammonia has only 2 moles opposed to 4 moles in the reactants, the forward reaction is favoured to decrease the pressure, so more ammonia is produced.

Question 54

Why isn’t pressure maximised in the Haber process?

Answer 54

Achieving a pressure that would lead to maximum yield would be far too expensive.

Question 55

What is the effect of increased temperature on the Haber process?

Answer 55

As the forward reaction is exothermic, if we increase the temperature the reverse reaction is favoured as it is endothermic and decreases temperature. So to maximise yield of ammonia, temperature has to be low.

Question 56

Why is temperature higher than expected in the Haber process?

Answer 56

At low temperature, rate of reaction would be slow even though theoretical yield would be higher, so the reaction has to be at somewhat high temperature to speed it up but to not favour the reverse reaction too.

A lower temperature would also decrease the effectiveness of the iron catalyst.

Question 57

What is the effect of the iron catalyst on the Haber process?

Answer 57

An iron catalyst is used to speed up the rate of both the forward and reverse reaction. Therefore it does not affect yield of ammonia, but does affect rate of yield, which is an important economic consideration.

Question 58

What is ammonia made in the Haber process made into to be used as a fertiliser? What is the reaction for this?

Answer 58

It is made into ammonium nitrate. The reaction is ammonia + nitric acid –> ammonium nitrate.

Question 59

What three fertilisers can ammonia be made into? What acids does it need to react with to do this?

Answer 59

Ammonium nitrate using nitric acid.
Ammonium sulfate using sulfuric acid.
Ammonium phosphate using phosphoric acid.

Question 60

What reaction is used to make ammonia into a fertiliser?

Answer 60

A neutralisation

Question 61

What do NPK fertilisers stand for?

Answer 61

Nitrate
Phosphate
Potassium

Question 62

How is ammonium phosphate produced?

Answer 62

Nitric acid reacts with phosphate rock to produce phosphoric acid and calcium nitrate. Then the phosphoric acid is neutralise with ammonia to produce it.

Question 63

How is single superphosphate produced?

Answer 63

Phosphate rock is treated with sulfuric acid to produce it.

Question 64

What is single superphosphate?

Answer 64

A mixture of calcium phosphate and calcium sulfate.

Question 65

How is triple superphosphate produced?

Answer 65

Phosphate rock is treated with phosphoric acid.

Question 66

How are potassium salts produced?

Answer 66

Potassium chloride and potassium sulfate are mined from the ground. They are soluble in water so they can be removed of impurities and used directly.

Question 67

What is the reaction for making hydrogen for the haber process?

Answer 67

methane + steam –> hydrogen + carbon monoxide

Question 68

What is the reversible reaction between Nitrogen and ammonia?

Answer 68

N2 (g) + 3H2 (g) <–> 2NH3 (g)

Question 69

What is the reaction between ammonia and phosphoric acid?

Answer 69

Ammonia + phosphoric acid –> ammonium phosphate

Question 70

What is the reaction between ammonia and sulfuric acid?

Answer 70

Ammonia + sulfuric acid –> ammonium sulfate