C8 - Acids, Bases and Salts

Question 1

Properties of Acids (7)

Answer 1

• pH values of below 7
• have a sour taste (when edible)
• are corrosive
• are proton donors
• substances that can neutralise a base, forming a salt and water
• when added to water, they form positively charged hydrogen ions (H+)
• presence of H+ ions is what makes a solution acidic

Question 2

Properties of bases (5)

Answer 2

• Have pH values of above 7
• A base which is water-soluble is referred to as an alkali
• Bases are substances which can neutralise an acid, forming a salt and water
• Bases are usually oxides or hydroxides of metals
• When alkalis are added to water, they form negative hydroxide ions (OH–)

Question 3

The reactivity series

Answer 3

Question 4

What does an acid metal reaction form?

Answer 4

Acid + Metal –› Salt + Hydrogen

Question 5

What does the name of the salt depend on in an acid metal reaction?

Answer 5

The anion within the acid

Question 6

What are the three main strong acids and what salt do they form?

Answer 6

1. Hydrochloric acid (HCl) - chloride salt
2. Nitric acid (HNO3) - nitrate salt
3. Sulphuric acid (H2SO4) - sulphate salt

Question 7

How is hydorchloric acid formed?

Answer 7

HCl (aq) → H+ (aq) + Cl- (aq)

Question 8

How is nitric acid formed?

Answer 8

HNO3 (aq) → H+ (aq) (NO3)-

Question 9

How is sulhuric acid formed?

Answer 9

H2SO4 (aq) → 2H+ (aq) + (SO4)-2

Question 10

How partial dissociation shown in the reaction of weak acids and bases?

Answer 10

With a double layered arrow pointing in either direction

Question 11

Neutralisation reaction

Answer 11

Acid + Base → Salt + Water

Question 12

Acid and metal carbonate reaction

Answer 12

Acid + Metal Carbonate → Salt + Carbon Dioxide + Water

Question 13

Blue litmus paper

Answer 13

• red: acidic
• blue: basic

Question 14

Red litmus paper

Answer 14

• red: acidic
• blue: basic

Question 15

Universal indicator

Answer 15

• red: acidic
• green: neutral
• blue/purple: basic

Question 16

Methyl orange

Answer 16

• yellow: basic
• pink: acidic

Question 17

Penolphalein

Answer 17

• pink: basic
• colourless: acidic

Question 18

Tymolphtalein

Answer 18

• blue: basic
• colourless: acidic

Question 19

How do ammonium salts react with alkalis?

Answer 19

• Ammonium salts undergo decomposition when warmed with an alkali
• Even though ammonia is itself a weak base, it is very volatile and can easily be displaced from the salt by another alkali
• A salt, water and ammonia are produced

Question 20

Volatile

Answer 20

a substance easily evaporated at normal temperatures

Question 21

What ions are produced when acids are added to water?

Answer 21

positively charged hydrogen ions (H+)

Question 22

What ions are produced when alkalis are added to water?

Answer 22

negative hydroxide ions (OH–)

Question 23

What happens during a neutralisation reaction?

Answer 23

• A neutralisation reaction occurs when an acid reacts with an alkali
• When these substances react together in a neutralisation reaction, the H+ ions react with the OH– ions to produce water

Question 24

pH scale indication

Answer 24

Question 25

Acids

Answer 25

Acids are proton donors as they ionise in solution producing protons, which are H+ ions (these make the aqueous solution acidic)

Question 26

Bases

Answer 26

Bases are proton acceptors as they accept the protons which are donated by the acid

Question 27

Strong acids

Answer 27

Completely dissociate (or ionise) in water, producing solutions of a very low pH
* include HCl and H2SO4

Question 28

Weak acids

Answer 28

Partially dissociate (or ionise) in water and produce pH values which are closer to the middle of the pH scale, whilst still being below 7
* include organic acids such as ethanoic acid, CH3COOH

Question 29

What does it mean to have a concentrated solution of acid?

Answer 29

A concentrated solution of an acid is one that contains a higher number of acid molecules per dm3 of solution
* not necessarily strong acid

Question 30

Oxides

Answer 30

Compounds made from one or more atoms of oxygen combined with one other element

Question 31

Acidic oxides

Answer 31

Acidic oxides are formed when a non-metal element combines with oxygen
They react with bases to form a salt and water
When dissolved in water they produce an acidic solution with a low pH
* Common examples include CO2, SO2, NO2 and SiO2

Question 32

Basic oxides

Answer 32

Basic oxides are formed when a metal element combines with oxygen
They react with acids to form a salt and water
When dissolved in water they produce a basic solution with a high pH
* Common examples include CuO and CaO

Question 33

Neutral oxides

Answer 33

Do not react with either acids or bases
* Examples include N2O, NO and CO

Question 34

Amphoteric oxides

Answer 34

Amphoteric oxides can behave as both acidic and basic, depending on whether the other reactant is an acid or a base
In both cases salt and water are formed
* Two of the most common amphoteric oxides are zinc oxide, ZnO and aluminum oxide, Al2O3

Question 35

Salt

Answer 35

A salt is a compound that is formed when the hydrogen atom in an acid is replaced by a metal

Question 36

How are salts used in real life?

Answer 36

fertilisers, batteries, cleaning products, healthcare products and fungicides

Question 37

General method of preparing soluble salts by adding acid to a solid metal, insoluble base or insoluble carbonate

Answer 37

1. Add dilute acid into a beaker and heat using a bunsen burner flame
2. Add the insoluble metal, base or carbonate, a little at a time, to the warm dilute acid and stir until the base is in excess (i.e. until the base stops disappearing and a suspension of the base forms in the acid)
3. Filter the mixture into an evaporating basin to remove the excess base
4. Heat the solution to evaporate water and to make the solution saturated. Check the solution is saturated by dipping a cold, glass rod into the solution and seeing if crystals form on the end
5. Leave the filtrate in a warm place to dry and crystallize
6. Decant excess solution and allow crystals to dry or blot to dry with filter paper

Question 38

preparation of pure, hydrated copper(II) sulfate crystals by adding acid to a solid metal, insoluble base or insoluble carbonate

Answer 38

1. Add dilute sulfuric acid into a beaker and heat using a bunsen burner flame
2. Add copper(II) oxide (insoluble base), a little at a time to the warm dilute sulfuric acid and stir until the copper (II) oxide is in excess (stops disappearing)
3. Filter the mixture into an evaporating basin to remove the excess copper(II) oxide
4. Leave the filtrate in a warm place to dry and crystallize
5. Decant excess solution
6. Blot crystals dry with filter paper

Question 39

Equation for sulphuric acid and copper (II) oxide reaction

Answer 39

CuO (s) + H2SO4 (aq) → CuSO4 (aq) + H2O (l)
copper(II) oxide + sulfuric acid → copper(II) sulphate + water

Question 40

Preparing salts by reacting a dilute acid and alkali (soluble base) (7)

Answer 40

1. Use a pipette to measure the alkali into a conical flask and add a few drops of indicator (thymolphthalein or methyl orange)
2. Add the acid into the burette and note the starting volume
3. Add the acid very slowly from the burette to the conical flask until the indicator changes to the appropriate colour
4. Note and record the final volume of acid in the burette and calculate the volume of acid added (final volume of acid - initial volume of acid)
5. Add this same volume of acid into the same volume of alkali without the indicator
6. Heat the resulting solution in an evaporating basin to partially evaporate, leaving a saturated solution (crystals just forming on the sides of the basin or on a glass rod dipped in and then removed)
7. Leave to crystallise, decant excess solution and allow crystals to dry

Question 41

Percipitation reaction

Answer 41

A reaction in which a solid product is formed after two solutions are mixed together

Question 42

When can a percipitation reaction take place?

Answer 42

Insoluble salts can be prepared using a precipitation reaction
* The solid salt obtained is the precipitate, thus in order to successfully use this method the solid salt being formed must be insoluble in water, and the reactants must be soluble

Question 43

General method for preparing insoluble salts

Answer 43

1. Dissolve soluble salts in water and mix together using a stirring rod in a beaker
2. Filter to remove precipitate from mixture
3. Wash filtrate with distilled water to remove traces of other solutions
4. Leave in an oven to dry

Question 44

Preparation of pure, dry lead(II) sulfate crystals using a precipitation reaction

Answer 44

1. Dissolve lead(II) nitrate and potassium sulfate in water and mix together using a stirring rod in a beaker
2. Filter to remove precipitate from mixture
3. Wash precipitate with distilled water to remove traces of potassium nitrate solution
4. Leave in an oven to dry

Question 45

Equation of reaction between lead (II) nitrate and potassium sulphate

Answer 45

lead(II) nitrate + potassium sulfate → lead(II) sulfate + potassium nitrate
Pb(NO3)2 (aq) + K2SO4 (aq) → PbSO4 (s) + 2KNO3 (aq)

Question 46

Hydrated salts

Answer 46

Hydrated means when there is water within a substance. Hydrated salts contain water of crystallisation which affects the molecular shape and colour.

Question 47

Anhydrous salts

Answer 47

A substance is anhydrous when it contains absolutely no water.

Question 48

Water of crystallisation

Answer 48

Water molecules included in the structure of some salts during the crystallisation process are known as water of crystallisation
* A compound that contains water of crystallisation is called a hydrated compound