2.5- Halogens

Question 0

Trend in melting and boiling points in halogens?

Answer 0

Increases down the group

As molecules become larger they have more electrons so have larger van der Waals forces between the molecules. As the intermolecular forces get larger more energy has to be put in to break the forces. This increases the melting and boiling points

Question 1

Colours of the halogens?

Answer 1

Fluorine (F2) : very pale yellow gas. It is highly reactive

Chlorine (Cl2): greenish, reactive gas, poisonous in high concentrations

Bromine (Br2): red liquid that gives off dense brown/orange poisonous fumes

Iodine (I2): Shiny grey solid sublimes to purple gas

Question 2

Trend in electronegativity in halogens?

Answer 2

As one goes down the group the electronegativity of the elements decreases

As one goes down the group the atomic radio increases due to the increasing number of shells. The nucleus is therefore less able to attract the bonding pair of electrons

Question 3

Rules for the displacement reactions of halide ions by halogens?

Answer 3

A halogen that is a strong oxidising agent will displace a halogen that has a lower oxidising power from one of its compounds

The oxidising strength decreases down the group

Oxidising agents are electron acceptors

Question 4

What are the colour indicators of displacement reactions of halide ions by halogens?

Answer 4

Chlorine= very pale green (often colourless)

Bromine= yellow solution

Iodine= brown solution (sometimes black solid present)

Question 5

How can halide ions be identified using silver nitrate?

Answer 5

The test solution is made acidic with nitric acid and then silver nitrate solution is added dropwise

Chlorides produce a white precipitate

Bromides produce a cream precipitate

Iodides produce a pale yellow precipitate

Question 6

What is the told of nitric acid in the identification of halide ions using silver nitrate?

Answer 6

To react with any carbonates present to prevent the formation of the precipitate Ag2CO3. This would mask the desired observations

Question 7

How can silver halide precipitates be further identified?

Answer 7

Silver halide precipitates can be treated with ammonia solution to help differentiate between them if the colours look similar

Silver chloride dissolves in dilute ammonia to form a colourless solution

Silver bromide dissolves in concentrated ammonia to form a colourless solution

Silver iodide doesn’t react with ammonia as it is too insoluble

Question 8

Explain the differing reducing power of halides?

Answer 8

A reducing agent donates electrons. The reducing power of the halides increases down group 7. They have a greater tendency to donate electrons because as the ions get bigger it is easier for the outer electrons to be given away as the pull from the nucleus on them becomes smaller

Question 9

Why do no redox reactions occur between F-, Cl- ions and H2SO4?

Answer 9

F- and Cl- ions are not strong enough reducing agents to reduce the S in H2SO4

No redox reactions occur. Only acid-base reactions occur and H2SO4 plays the role of an acid (proton donor)

Question 10

Reactions between fluoride, chloride ions and H2SO4?

Answer 10

NaF(s) + H2SO4(l) –> NaHSO4(s) + HF(g)

White steamy fumes of HF are evolved

Same for chlorine