Group 7 — Halogens

IGCSE Edexcel Chemistry
2.5–2.7 Halogen properties, trends and displacement reactions
Key Concepts: Halogens are diatomic molecules. Colour and state change down the group as molecular size increases. Reactivity decreases down the group — a more reactive halogen displaces a less reactive one from its salt solution.

Section A — Colours, States and Trends

1. Complete the table for the halogens at room temperature. [8]
Halogen Formula State Colour
Fluorine
Chlorine
Bromine
Iodine
2. Describe the trend in colour going down Group 7. [1]
3. Describe the trend in physical state and boiling point going down Group 7. [2]

Section B — Explaining the Trends

4. Explain why melting and boiling points increase down Group 7. [3]
5. Predict the state and colour of astatine at room temperature. Give a reason for each prediction. [3]

Section C — Reactivity and Displacement

6. Put chlorine, bromine and iodine in order of decreasing reactivity. [1]
7. Define a displacement reaction in terms of halogens. [1]
8. For each reaction below, predict the products (or state no reaction). [3]

a) Chlorine + potassium bromide solution

b) Bromine + potassium iodide solution

c) Iodine + potassium chloride solution

9. Describe the colour changes you would observe in reactions (a) and (b) in Question 8. [3]

Section D — Ionic Equations

10. Write the ionic equation for chlorine displacing bromide ions. [2]
11. Explain why iodine cannot displace bromide ions from potassium bromide solution. [2]

Total marks: 29

Mark Scheme

1. F₂: gas, pale yellow; Cl₂: gas, yellow-green; Br₂: liquid, red-brown; I₂: solid, grey/black (purple vapour) [8 — 2 per row]
2. Colours get darker/deeper down the group [1]
3. State changes from gas → liquid → solid going down; melting and boiling points increase [2]
4. Larger molecules have more electrons; stronger London/intermolecular (van der Waals) forces; more energy required to overcome these forces [3]
5. Solid — states increase from gas to liquid to solid so astatine will be solid; very dark/black — colours get darker down the group [3]
6. Cl₂ > Br₂ > I₂ [1]
7. A more reactive halogen displaces a less reactive halogen from a solution of its salt [1]
8. a) Potassium chloride + bromine (reaction occurs); b) Potassium bromide + iodine (reaction occurs); c) No reaction [3]
9. a) Solution turns orange/brown — bromine is formed; b) Solution turns dark brown — iodine is formed [3]
10. Cl₂ + 2Br⁻ → 2Cl⁻ + Br₂ [2]
11. Iodine is less reactive than bromine; it cannot oxidise bromide ions to bromine; a less reactive halogen cannot displace a more reactive one [2]