C11 - Air and water

Question 1

Two types of tests for water

Answer 1

• Using cobalt(II) chloride
• Using copper(II) sulfate

Question 2

Copper(II) sulfate test for water

Answer 2

Anhydrous (contains no water) copper(II) sulfate turns white to blue on the addition of water
* Equation: anhydrous copper(II) sulfate + water -› hydrated copper(II) sulfate
* CuSO4 (s) + 5H2O (l) -› CuSO4.5H2O (s)

Question 3

Cobalt(II) chloride test for water

Answer 3

Cobalt(II) chloride turns blue to pink on the addition of water. This test is usually done using cobalt chloride paper
* Equation: anhydrous cobalt(II) chloride + water -› hydrated cobalt(II) chloride
* CoCl2 (s) + 6H2O (l) -› CoCl2.6H2O (s)

Question 4

Water supply

Answer 4

Water is taken from rivers, reservoirs or underground water sources (groundwater)

Question 5

Aquifer

Answer 5

A rock that stores water

Question 6

Filtration

Answer 6

The process used to remove smaller particles by passing the water through layers of sand and gravel filters that trap solid particles

Question 7

Chlorination

Answer 7

The careful addition of chlorine to the water supply which kills bacteria and other unwanted microorganisms

Question 8

Composition of air (4 components)

Answer 8

• 78% nitrogen
• 21% oxygen
• 0.04% CO2
• 0.9% argon and other substances

Question 9

Uses of air and its components (name 2)

Answer 9

• The noble gases are used in many applications, e.g. helium is used to fill balloons, argon is used in tungsten light bulbs, krypton is used in lasers for eye surgery
• Oxygen is used in steel making, welding and breathing apparatus
• Nitrogen is used in food packaging, the production of ammonia and in the production of silicon chips
• Oxygen and nitrogen are separated from the air by fractional distillation

Question 10

Common pollutants in air (3)

Answer 10

• Carbon monoxide
• Sulfur dioxide
• Oxides of nitrogen

Question 11

Source and adverse effects of carbon monoxide

Answer 11

• Source: incomplete combustion of carbon-containing fuels such as fossil fuels
• Adverse effects: toxic, combining with haemoglobin in the blood and prevents it from carrying oxygen

Question 12

Source and adverse effects of sulfur dioxide

Answer 12

• Sources: combustion of fossil fuels containing sulfur compounds (such as power stations)
• Adverse effects: dissolves in rain to form acid rain with similar effects as the acid rain caused by oxides of nitrogen

Question 13

Sources and adverse effects of oxides of nitrogen

Answer 13

• Source: reaction of nitrogen with oxygen in the presence of high temperatures (car engines, furnaces, lightning)
• Adverse effects:
  
  • Produces photochemical smog
  • Dissolves in rain to form acid rain which causes corrosion to metal infrastructure, damage to aquatic organisms etc.

Question 14

Examples of greenhouse gases (2)

Answer 14

Carbon dioxide and methane

Question 15

Process of the greenhouse effect

Answer 15

1. The Sun emits energy in the form of radiation that enters the Earth’s atmosphere
2. Some thermal energy is reflected from the Earth’s surface
3. Most thermal energy is absorbed and re-emitted back from the Earth’s surface
4. The energy passes through the atmosphere where some thermal energy passes straight through and is emitted into space
5. But some thermal energy is absorbed by greenhouse gases such as carbon dioxide and methane and is re-emitted in all directions
6. This reduces the thermal energy lost into space and traps it within the Earth’s atmosphere, keeping the Earth warm

Question 16

Enhanced greenhouse effect

Answer 16

As the concentration of greenhouse gases in the atmosphere increases due to human activity, more thermal energy is trapped within the Earth’s atmosphere causing the Earth’s average temperature to rise (global warming)

Question 17

Ways to reduce emissions of sulfur dioxide (2)

Answer 17

• Using fueld which contain low levels of sulfur
• Fuel gas desulfurisation - reacting the sulfur dioxide emitted from burning fuels containing sulfur with calcium oxide therefore removing it from the flue gas

Question 18

Use of catalyctic converters

Answer 18

• They contain a series of transition metal catalysts including platinum and rhodium
• The metal catalysts are in a honeycomb structure within the converter to increase the surface area available for reaction
• A series of redox reactions occurs which neutralises the pollutant gases
  
  • Carbon monoxide is oxidised to carbon dioxide - 2CO + O2 → 2CO2
  • Oxides of nitrogen are reduced to nitrogen gas - 2NO2 → N2 + 2O2
• Overall equation - 2NO + 2CO → N2 + 2CO2

Question 19

Rusting

Answer 19

A chemical reaction between iron, water and oxygen to form the compound hydrated iron(III) oxide (rust)
* iron + water + oxygen → hydrated iron(III) oxide

Question 20

Rust barrier methods (4 examples)

Answer 20

• Grease
• Oil
• Paint
• Plastic
• Metal plating
• Zinc galvanising

Question 21

Contents of fertilisers (3)

Answer 21

Fertilisers contain nitrogen, potassium and phosphorus

Question 22

Nitrogen (use)

Answer 22

Nitrogen makes chlorophyll and protein and promotes healthy leaves

Question 23

Potassium (use)

Answer 23

Potassium promotes growth and healthy fruit and flowers

Question 24

Phosphorus (use)

Answer 24

Phosphorus promotes healthy roots

Question 25

Ammonia manufacturing (Haber process)

Answer 25

• Stage 1: H2 and N2 are obtained from natural gas and the air respectively and are pumped into the compressor through pipe
• Stage 2: The gases are compressed to about 200 atmospheres inside the compressor
• Stage 3: The pressurised gases are pumped into a tank containing layers of catalytic iron beds at a temperature of 450 °C. Some of the hydrogen and nitrogen react to form ammonia: N2 (g) + 3H2 (g) ⇌ 2NH3 (g)
• Stage 4: Unreacted H2 and N2 and the product ammonia pass into a cooling tank. The ammonia is liquefied and removed to pressurised storage vessels
• Stage 5: The unreacted H2 and N2 gases are recycled back into the system and start over again

Question 26

Source of hydrogen in Haber process

Answer 26

Reaction of methane with steam

Question 27

Source of nitrogen in Haber process

Answer 27

The air

Question 28

Conditions for high yield in Haber process

Answer 28

• low temperature
• high pressure
• catalyst of iron to speed up the reaction