Using Our Resources

Question 1

Corrosion

Answer 1

Caused by chemical reactions between metal and substance in environment
Affect strength and appearance
Form of rusting

Question 2

What is needed for rusting?

Answer 2

Both air and water for iron to rust

Question 3

Preventing rusting

Answer 3

Paint
Oil or grease
Plastic
Less reactive metal
More reactive metal

Question 4

Zinc in rusting

Answer 4

Protects iron
Iron is galvanised
Zinc is more reactive than iron
Zinc has stronger tendency to form positive ions by giving away electrojs
Zinc loses electrons = oxidised
Zinc is sacrificed to protect iron

Question 5

Magnesium or aluminium in rusting

Answer 5

Used instead of zinc in harsher conditions

Usually if in contact with sea water

Question 6

What’s an alloy?

Answer 6

Mixture of metals

Question 7

Copper alloys

Answer 7

Bronze = tine and copper = statues
Brass = zinc and copper = Hard and workable

Question 8

Aluminium alloys

Answer 8

Low density
Alloyed with side range of other elements
Lightweight
Armour plating on tanks

Question 9

Gold alloys

Answer 9

Harder when alloyed
Gold usually alloyed with copper
Jewellery
Varying proportions of 2 metals gives different shades

Question 10

Steels

Answer 10

Iron and carbon

Question 11

Carbon steels

Answer 11

Removing most carbon from iron = using blast furnace
Carbon content decreases = cheapest steels made
High carbon = strong and brittle
Low carbon = soft and easily shaped, not as strong and less likely to shatter

Question 12

Alloy Steels

Answer 12

Steels = expensive, contain high percentage of metals
Nickel steel alloys = bridges, resistant to stretching, operates well under hot conditions
Chromium-nickel steels = stainless steel, hard, strong, resistant to corrosion, cooking utensils and cutlery
Stainless steels = chemical industry, make vessels, expensive, withstand high temperatures and pressures

Question 13

What do the properties of polymers depend on?

Answer 13

Monomers used to make it

Conditions chosen to carry out reaction

Question 14

What are the 2 types of polyethenes

Answer 14

HD and LD

high density and low density

Question 15

LD polyethene

Answer 15

Very pressures and trace of oxygen, ethene forms LD polyethene
Polymer chains randomly branched and cannot pack closely together = so have low density

Question 16

HD polyethene

Answer 16

Using catalyst at 50*C and raised pressure
Makes straighter polyethene chains
Pack closely together
High density
High softening temperature
Stronger than LD

Question 17

How do you classify polymers?

Answer 17

What happens to them when they are heated

Question 18

Thermosoftening Polymers

Answer 18

Soften easily
Re-set when cool down
Made up of individual polymer chains that are tangled together

Question 19

Thermosetting Polymers

Answer 19

Do not melt when heated

Strong covalent bonds which form “cross inks” between chains

Question 20

Thermosoftening Chains forces

Answer 20

Weal forces between chains
Heat = weak intermolecular forces broken
Polymer becomes soft
Polymer cools down = intermolecular forces bring polymer molecules back together
Polymer remoulded

Question 21

Thermosetting chains for forces

Answer 21

Monomers make covalent bonds between polymer chains
When heated to shape them
Bonds strong so stop polymer softening
Covalent “cross-links” between chains do not allow them to separate
Polymer char’s at high temperatures

Question 22

Glass

Answer 22

Sand, limestone, sodium carbonate
Raw materials heated to 1500*C
Metals react to form molten glass
Cools down turns solid
Particles don't form regular pattern
Molten glass frozen
OR use glass making mixture

Question 23

Ceramics

Answer 23

Electrical insulators, resistant to chemical attack
Made by moulding wet clay into desires shaped then heating
Clay contain compounds of metals and non-metals = ionic bonding and covalent
Ions and atoms arranged in giant structures
Clay is wet, water molecules get between layers fired
Water driven out and strong bonds form = changing properties
High temp makes it hard
Brittle because when hit ions repel each other away, cracking

Question 24

Examples of composites

Answer 24

Wood = plywood, thin sheets of wood glues together, plywood resists splitting along grain (MDF) made of woodchips, shavings or sawdust
Concrete = cement, sand and gravel mixed with water, hard, strong, resist bending

Question 25

Nitrogen-based Fertilisers

Answer 25

Plants need nitrogen = make proteins -> growth
Natural cycle of nitrogen = disturbed by farming crops
Crops plants grow = take in nitrate ions in soil
Need fertiliser to replace nitrogen and other nutrients taken by plant
Air has nitrogen = nitrogen is soluble in water, most plants only absorb soluble form of nitrogen

Question 26

What does the Haber Process do?

Answer 26

Turns nitrogen in air into ammonia

Question 27

Ammonia’s production from raw materials

Answer 27

Nitrogen from air

Hydrogen from natural gas

Question 28

How ammonia is mde

Answer 28

Nitrogen and hydrogen purified
Passed over an iron catalyst at high temperature
Ammonia removed by cooling the gases so ammonia liquifies
Unreacted nitrogen and hydrogen gases are recycled back into reaction mixture. Then re-compressed and heated

Question 29

What is the reaction like in the haber process?

Answer 29

Reversible

Question 30

Effect of pressure on the Haber Process

Answer 30

N2 + 3H2 <=> 2NH3
4 molecules on left side
2 molecules on right
Volume of reactants is greater than volume of products
Increase in pressure shifts equilibrium to right, producing more ammonia
Maximum yield = as much pressure as possible -> lots of energy, expensive
Lower yield = reduces costs, produces reasonable rates of reaction

Question 31

Effect of temperature on the Haber process

Answer 31

Lowering temp = increase amount of ammonia, slow gas molecules, less collision and less energetic, reduces effectiveness of iron catalyst
High temp = get reaction going at reasonable rate, reduces yield of ammonia

Question 32

Effect of a catalyst on the Haber process

Answer 32

Speed up reaction of both forward and reverse reaction
Does not affect yield of ammonia
Causes ammonia to be produced more quickly

Question 33

Ammonia and fertilisers

Answer 33

Ammonia = fertiliser
Most ammonia changes into compounds
Other fertilisers = salts by ammonia + acid => salt
Neutralisation reaction = ammonia + phosphoric acid (acid + alkali)

Question 34

Making NPK fertilisers in industry

Answer 34

Crops need phosphorus
Phosphorus mined from ground cannot be used on soil = insoluble in water, rock treated with acids to make fertiliser salts

Question 35

How is phosphorus rock treated?

Answer 35

With nitric acid = phosphoric acid + calcium nitrate => ammonium phosphate
With sulfuric acid = calcium phosphate + calcium sulfate => single superphosphate
With phosphoric acid = calcium phosphate => triple superphosphate