3.2.6 Reactions of Ions in Aqueous Solution

Question 1

Describe what happens when transition metal compounds dissolve in water

Answer 1

• (generally 6) water molecules form co-ordinate bonds with each metal ion
• Forms metal-aqua complex ion

Question 2

Explain how water molecules form co-ordinate bonds with transition metal ions

Answer 2

Water molecules donate a non-bonding pair of electrons from their oxygen

Question 3

Draw [Fe(H₂O)₆]²⁺

Answer 3

Question 4

Draw [Al(H₂O)₆]³⁺

Answer 4

Question 5

Solutions containing metal-aqua ions are ____

Answer 5

Acidic

Question 6

Explain why a solution containing metal-aqua 2+ ions is acidic

Answer 6

• There’s a hydrolysis or acidity reaction between metal-aqua ion and water
• Metal-aqua 2+ ions release H⁺ ions = acidic solution formed
• Only slightly dissociate = weakly acidic

Question 7

Write an equation for when [Cu(H₂O)₆]²⁺ reacts with water

Answer 7

[Cu(H₂O)₆]²⁺ + H₂O ⇌ [Cu(H₂O)₅(OH)]⁺ + H₃O⁺

Question 8

Explain metal-aqua 3+ ions form more acidic solutions than 2+ metal-aqua ions

Answer 8

Dissociate more than 2+ ions

Question 9

Explain why metal-aqua 3+ ions dissociate more than 2+ metal-aqua ions

Answer 9

1. Metal 3+ ions = small but have big charge
   
   • ∴ high charge density (charge/size ratio)
2. Makes 3+ ions more polarising
   
   • Means they attract electrons from oxygen atoms of co-ordinated water molecules more strongly = weakens O–H bond
3. So it’s more likely hydrogen ion will be released = more acidic solution

Question 10

Write an equation for when [Fe(H₂O)₆]³⁺ reacts with water

Answer 10

[Fe(H₂O)₆]³⁺ + H₂O ⇌ [Fe(H₂O)₅(OH)]²⁺ + H₃O⁺

Question 11

What happens when you add OH^- ions to solutions of metal aqua ions?

Answer 11

Insoluble metal hydroxides are produced

Question 12

Explain why adding OH^- ions to solutions of metal-aqua 3+ ions produces insoluble metal hydroxides

Answer 12

1. In water, metal-aqua 3+ ions (e.g. Fe³⁺ or Al³⁺) form equilibrium
   
   • If you add OH^- ions to equilibrium, H₃O⁺ ions are removed
   • Shifts equilibrium to the right
2. Another equilibrium is set up in the solution
   
   • & same thing happens when you add OH^-
3. ^​​​Happens one last time
   
   • Left with insoluble, uncharged metal hydroxide

Question 13

Hydrolysing Metal-Aqua Ions to form Precipitates

1) Write the equation for when metal-aqua 3+ ions form an equilibrium in water

Answer 13

[M(H₂O)₆]³⁺ + H₂O ⇌ [M(H₂O)₅(OH)]²⁺ + H₃O⁺

Question 14

Hydrolysing Metal-Aqua Ions to form Precipitates

2) Write the equation for the new equilibrium formed when OH^- ions are added to metal-aqua 3+ ions in water

Answer 14

Question 15

Hydrolysing Metal-Aqua Ions to form Precipitates

3) Write the equation for the final equilibrium formed when OH^- ions are added to metal-aqua 3+ ions in water

Answer 15

Question 16

Hydrolysing Metal-Aqua Ions to form Precipitates

1) Write the equation for when metal-aqua 2+ ions form an equilibrium in water

Answer 16

[M(H₂O)₆]²⁺ + H₂O ⇌ [M(H₂O)₅(OH)]⁺ + H₃O⁺

Question 17

Hydrolysing Metal-Aqua Ions to form Precipitates

2) Write the equation for the new equilibrium formed when OH^- ions are added to metal-aqua 2+ ions in water

Answer 17

Question 18

Why is there only 2 steps when OH^- ions are added to metal-aqua 2+ ions?

Answer 18

∵ only 2 of the water ligands need to be deprotonated to make the +2 complex uncharged (and so insoluble)

Question 19

What do all metal hydroxides precipitates dissolve in?

Answer 19

Acid

Question 20

Why do all metal hydroxides precipitates dissolve in acid?

Answer 20

• ∵ acts as Brønsted–Lowry bases and accept H⁺ ions
• Reverses hydrolysis reactions

Question 21

Some metal hydroxides are _______

Answer 21

amphoteric

(Dissolve in excess base as well as in acids)

Question 22

Give an example of a metal hydroxide that is amphoteric

Answer 22

aluminium hydroxide

Question 23

Describe how aluminium hydroxide behaves in the presence of an acid

Answer 23

Acts as Brønsted–Lowry base & accepts H⁺ ions from H₃O⁺ ions

Question 24

Describe how aluminium hydroxide behaves in the presence of a base

Answer 24

• Acts as a Brønsted–Lowry acid & donates H⁺ ions to OH^- ions
• Forming soluble compound

Question 25

Write an equation showing how aluminium hydroxide reacts with base (OH^-)

Answer 25

Question 26

Write an equation showing how aluminium hydroxide reacts with acid (H₃O⁺)

Answer 26

Question 27

Name 2 substances you can add to metal-aqua ions to form precipitates besides a strong alkali

Answer 27

• Ammonia solution
• Sodium carbonate

Question 28

Explain how you can use (a small amount of) ammonia solution to add hydroxide ions

Answer 28

When ammonia dissolves in water = equilibrium:

Question 29

Explain what happens when you add excess ammonia solution to Cu(OH)₂(H₂O)₄

Answer 29

• Further reaction happens
  
  • H₂O and OH^- ligands are displaced by NH₃ ligands
  • Forms charged complex which is soluble in water
  • So precipitates dissolves

Question 30

Write an equation showing how Cu(OH)₂(H₂O)₄ reacts with excess ammonia

Answer 30

Question 31

What happens when metal 2+ ions react with sodium carbonate

Answer 31

They form insoluble metal carbonates

Question 32

Write an equation showing what happens when metal 2+ ions react with sodium carbonate

Answer 32

Question 33

Describe and explain what happens when metal 3+ ions react with sodium carbonate

Answer 33

• Metal 3+ ions are stronger acids = higher concentration of H₃O⁺ ions in solution
• Rather than displacing water from metal ions, carbonate ions react with H₃O⁺, removing them from solution & shifting equilibria of reactions to right
• Precipitate that forms is M(OH)₃(H₂O)₃ rather than M₂(CO₃)₃

Question 34

Write an equation showing how carbonate ions react with H₃O⁺

Answer 34

Question 35

Describe how you can use test tube reactions to identify unknown metal ions in solution

Answer 35

1. Measure out samples of unknown metal ion solution into 3 separate test tubes
2. To 1^st test tube, add NaOH solution dropwise, using a dropping pipette, and record any changes you see
   
   1. Add more NaOH dropwise so it’s in excess
   2. Record any changes
3. To 2^nd test tube, add ammonia solution dropwise, using a dropping pipette, and record any changes you see
   
   1. Keep adding ammonia so it’s in excess
   2. Record any changes
4. To 3^rd test tube, add sodium carbonate solution dropwise
   
   1. Record your observations

Question 36

Describe what happens when copper(II), iron(II), iron(III) and aluminium(III) aqua ions are reacted with sodium hydroxide

Answer 36

• All four metal aqua ions will form precipitates with NaOH
• But only aluminium hydroxide precipitate dissolves in excess of NaOH
  
  • ∵ it’s amphoteric

Question 37

Describe what happens when copper(II), iron(II), iron(III) and aluminium(III) aqua ions are reacted with ammonia

Answer 37

• All 4 metal aqua ions will form precipitates with ammonia
• But only copper hydroxide precipitate will dissolve in excess ammonia
• ∵ it undergoes ligand exchange reaction with excess ammonia

Question 38

Describe what happens when copper(II), iron(II), iron(III) and aluminium(III) aqua ions are reacted with sodium carbonate

Answer 38

• All 4 metal aqua ions will form precipitates with sodium carbonate
• Solutions containing Al³⁺ or Fe³⁺ will form bubbles as CO₂ is formed
  
  • Differentiating between Fe²⁺ and Fe³⁺
  • Fe³⁺ = gas VS Fe²⁺ ≠ gas

Question 39

Why should the metal-aqua ion solutions be freshly made?

Answer 39

∵ if Fe²⁺ ions are left too long in contact with air they will oxidise to Fe³⁺ ions

Question 40

When working with ammonia, carry out the experiment in a ___________

Answer 40

fume cupboard/hood

Question 41

State the formula and colour of the metal-aqua ion: copper(II)

Answer 41

Question 42

State the formula and colour of the metal-aqua ion: copper(II) with OH^- or NH₃

Answer 42

Question 43

State the effect when excess OH^- is added to the metal-aqua ion: copper(II)

Answer 43

Question 44

State the effect when excess NH₃ is added to the metal-aqua ion: copper(II)

Answer 44

Question 45

State the formula and colour of the metal-aqua ion: copper(II) with Na₂CO₃

Answer 45

Question 46

State the formula and colour of the metal-aqua ion: iron(II)

Answer 46

Question 47

State the formula and colour of the metal-aqua ion: iron(II) with OH^- or NH₃

Answer 47

Question 48

State the effect when excess OH^- is added to the metal-aqua ion: iron(II)

Answer 48

Question 49

State the effect when excess NH₃ is added to the metal-aqua ion: iron(II)

Answer 49

Question 50

State the formula and colour of the metal-aqua ion: iron(II) with Na₂CO₃

Answer 50

Question 51

State the formula and colour of the metal-aqua ion: aluminium(III)

Answer 51

Question 52

State the formula and colour of the metal-aqua ion: aluminium(III) with OH^- or NH₃

Answer 52

Question 53

State the effect when excess OH^- is added to the metal-aqua ion: aluminium(III)

Answer 53

Question 54

State the effect when excess NH₃ is added to the metal-aqua ion: aluminium(III)

Answer 54

Question 55

State the formula and colour of the metal-aqua ion: aluminium(III) with Na₂CO₃

Answer 55

Question 56

State the formula and colour of the metal-aqua ion: iron(III)

Answer 56

Question 57

State the formula and colour of the metal-aqua ion: iron(III) with OH^- or NH₃

Answer 57

Question 58

State the effect when excess OH^- is added to the metal-aqua ion: iron(III)

Answer 58

Question 59

State the effect when excess NH₃ is added to the metal-aqua ion: iron(III)

Answer 59

Question 60

State the formula and colour of the metal-aqua ion: iron(III) with Na₂CO₃

Answer 60

Question 61

Write an equation for when [Cu(H₂O)₆]²⁺ reacts with (a few drops of) dilute NH₃

Answer 61

[Cu(H₂O)₆]²⁺ + 2NH₃ → Cu(H₂O)₄(OH)₂ + 2NH₄⁺

OR

NH₃ + H₂O → NH₄⁺ + OH⁻

[Cu(H₂O)₆]²⁺ + 2OH⁻ → Cu(H₂O)₄(OH)₂ + 2H₂O

Question 62

Write an equation for when [Fe(H₂O)₆]³⁺ reacts with sodium carbonate

Answer 62

2[Fe(H₂O)₆]³⁺_(aq) + 3CO₃^2-_(aq) → 2Fe(OH)₃(H₂O)_3(s) +3CO_2(g) + 3H₂O_(l)