C6

Question 1

What do acids from in water?

Answer 1

H+ ions

Question 2

What do alkalis form in water?

Answer 2

OH- ions

Question 3

What pHs are considered acids?

Answer 3

0-6 pH

Question 4

What pH is considered neutral?

Answer 4

7

Question 5

What pHs are considered alkalis?

Answer 5

8-14 pH

Question 6

What is the relationship between pH and concentration of H+ ions?

Answer 6

They are inversely proportionate, meaning as concentration of H+ ions increases, pH decreases

Question 7

What is universal indicator?

Answer 7

A combination of dyes which when added to a solution, changes colour according to the pH

Question 8

What happens if H+ concentration increases by a scale factor of 10?

Answer 8

The pH decreases by 1

Question 9

Example question:
A solution with a H+ concentration of 0.001 mol/dm has a pH of 3. Predict the new pH if the H+ concentration is increased to 0.01 mol/dm.

Answer 9

The H+ concentration has increase by a scale of 10, therefore the pH decreases by 1. 3 - 1 = 2
Answer: 2

Question 10

How can you estimate the pH of a solution from the concentration of H+ ions when in the unit mol/dm?

Answer 10

The pH will roughly be equal to the amount of 0s behind the first non zero number- for example the pH of 0.001 mol/dm will be 3, as there are 3 zeros before the 1

Question 11

Example question:

Estimate the pH of a solution with a H+ concentration of 0.00023

Answer 11

There is 4 zeros before the 2, therefore the pH is 4.

Answer: 4

Question 12

What is the difference between stronger and weaker acids?

Answer 12

In stronger acids, a higher proportion of acid molecules dissociate to release H+ ions.
In weaker acids, a lower proportion of acid molecules dissociate to release H+ ions.

Question 13

What is the difference between an acids strength, and an acids concentration?

Answer 13

Strength is the proportion of how many acid molecules dissociate to make H+
Concentration is the amount of dissolved acid molecules in a set volume

Question 14

In what reaction are salts formed?

Answer 14

Neutralization reactions

Question 15

Are salts ionic compounds?

Answer 15

Yes

Question 16

Acid + Metal Hydroxide –>

Answer 16

Salt + Water

Question 17

Acid + Metal –>

Answer 17

Salt + Hydrogen

Question 18

Acid + Metal Carbonate –>

Answer 18

Salt + Water + Carbon Dioxide

Question 19

What are soluble salts?

Answer 19

Salts that can’t dissolve in water

Question 20

What is a soluble salt?

Answer 20

A salt that can be dissolved in water

Question 21

Describe the process of making a soluble salt using neutralization

Answer 21

1) You must measure the exact amount of alkali needed to neutralize the acid (or vise versa) by carrying out a titration
2) Next, carry out the reaction with the exact right proportions
3) The solution that remains after the reaction is over contains only salt and water
4) Slowly evaporate some of the water off and then leave the solution to crystallize
5) Filter off the solid
6) Finally, dry the salt

Question 22

What is an insoluble salt?

Answer 22

A salt that cannot be dissolved in water

Question 23

Describe the process of making a soluble salt using an acid and an insoluble reactant

Answer 23

1) Add the insoluble substance to the acid- they will react to produce the soluble salt
2) When the excess solid has sank to the bottom of the flask, the reaction has finished
3) Filter out the excess solid so only the salt and water is left
4) Evaporate some of the water off, then leave the salt to crystallize
5) Filter off the solid
6) Finally, dry the salt

Question 24

How do you make a insoluble salt?

Answer 24

If you react 2 soluble salts, a insoluble salt (precipitate) will be made

Question 25

How does higher surface area to volume ratio increase rate of reaction?

Answer 25

If the surface area increases, it means there is more area exposed for reaction, therefore frequency of collisions increases, increase rate of reaction

Question 26

What is a catalyst?

Answer 26

A substance that speeds up reactions but isn’t used up

Question 27

How do catalysts increase rate of reaction?

Answer 27

They provide an alternative reaction pathway with a lower activation energy, increasing the frequency of successful collisions

Question 28

State 3 ways you can measure the rate of reaction

Answer 28

1) Precipitation / Colour change
2) Mass change (usually given off as gas)
3) Volume of gas given off

Question 29

What is the formula for rate of reaction?

Answer 29

Rate of reaction = Amount of reactants used up/products made / Time

Question 30

What instrument can be used to decide whether a colour has changed?

Answer 30

A colorimeter

Question 31

What is a reversible reaction?

Answer 31

A reaction is which the products can react with each other to produce the original reactants

Question 32

What 3 things can affect the position of equilibrium?

Answer 32

1) Temperature
2) Pressure (only gases)
3) Concentration

Question 33

What happens to the equilibrium if you increase the temperature?

Answer 33

It will move in the endothermic direction to absorb the extra heat

Question 34

What happens to the equilibrium if you decrease the temperature?

Answer 34

It will move in the exothermic direction to produce more heat

Question 35

What happens to the equilibrium if you increase the pressure?

Answer 35

It will move to the side with fewer moles of gas to reduce pressure

Question 36

What happens to the equilibrium if you decrease the pressure?

Answer 36

It will move to the side with more moles of gas to increase pressure

Question 37

What happens to the equilibrium if you increase the concentration of reactants?

Answer 37

It will move to the products side to make more products

Question 38

What happens to the equilibrium if you increase the concentration of products?

Answer 38

It will move to the reactants side to make more reactants

Question 39

What is the formula atom economy?

Answer 39

Atom economy = (Relative mass of desired products / Relative mass of all reactants)*100

Question 40

What is sustainable development?

Answer 40

An approach to development that considers present needs while avoiding long term environmental impacts

Question 41

What are the reactants in the Haber process?

Answer 41

Nitrogen and Hydrogen

Question 42

What is the formula for ammonia?

Answer 42

N2 + 3H2 2NH3

Question 43

How is hydrogen for the Haber process obtained?

Answer 43

Natural gas -> Methane -> Hydrogen + Carbon dioxide

Question 44

How is nitrogen for the Haber process obtained?

Answer 44

From the air

Question 45

What are the conditions of the Haber process?

Answer 45

High temperature (450C) and high pressure (250 Atmospheres)

Question 46

What catalyst is used?

Answer 46

An iron catalyst

Question 47

What reaction is the Haber process in the forward direction?

Answer 47

Exothermic

Question 48

What are the 3 essential elements in fertiliser?

Answer 48

Nitrogen, Phosphorus and Potassium

Question 49

What is eutrophication?

Answer 49

When fertiliser runs off into rivers and streams, meaning the levels of nitrates and phosphates rise in the water. Due to this, algae and weeds grow rapidly and form an algae bloom which blocks light for river plants below, likely killing them. Aerobic bacteria then feed of the dead plants meaning they multiply rapidly, causing all the oxygen in the water to be used up, which kills almost everything

Question 50

What is the role of a fertiliser?

Answer 50

They provide plants with the neccersary nutrients for growth, allowing them to grow faster

Question 51

How are fertilisers made using ammonia?

Answer 51

Ammonia can be neutralised with acids to produce fertilisers

Question 52

Where are elements necessary for plant growth sometimes lost?

Answer 52

During crop growth and harvesting

Question 53

What are the benefits of continuous reactions (bulk)?

Answer 53

• High quantity
• Economic advantages
• Process doesn’t stop

Question 54

What are the negatives of continuous reactions (bulk)?

Answer 54

• Little monitoring

- Little quality assurance

Question 55

What are the benefits of batch reactions (fine)?

Answer 55

• Large amount of monitoring

- Good quality assurance

Question 56

What are the negatives of batch reactions (fine)?

Answer 56

• Expensive

- Lower quantity