3.3 Chemistry of the p-block

Question 1

Why are they called the p-block elements?

Answer 1

Each of the p-block elements have their outer electron in the p orbital.

Question 2

What is meant by amphoteric behaviour?

Answer 2

An amphoteric species can act as both an acid and a base.

Question 3

Which two p-block elements have amphoteric behaviour?

Answer 3

Al/Al3+
Pb/Pb2+

Question 4

What is the chemical equation for the reaction between aluminium oxide and sulfuric acid?

Answer 4

Question 5

What is the chemical equation for the reaction between aluminium oxide and sodium hydroxide?

Answer 5

Question 6

What is the chemical equation for the reaction between lead oxide and hydrochloric acid?

Answer 6

Question 7

What is the chemical equation for the reaction between lead oxide and sodium hydroxide?

Answer 7

Question 8

What is the inert pair effect?

Answer 8

The tendency of electrons in the outer s orbital to remain unionised and unshared. It is used to explain the increasing stability of the oxidation states that are two less than the group valency for Groups 3, 4, and 5 (also known as Groups 13, 14 and 15).

Question 9

Describe how the stability of oxidation states changes down Group 3

Answer 9

• In Group 3 (Group 13) the stability of the +1 oxidation state increases down the group.
• The Tl+ ion is much more common than the Tl3+ ion, whereas at the top of the group the Al+ ion is very rare due to its instability and hence the Al3+ ion is more common.

Question 10

Describe how the stability of oxidation states changes down Group 4

Answer 10

In Group 4 (Group 14), stability of the +4 oxidation state reduces down the group, whilst stability of the +2 oxidation state increases down the group.

Question 11

Describe how the stability of oxidation states changes down Group 5

Answer 11

In Group 5 (Group 15), stability of the +5 oxidation state reduces down the group, whilst stability of the +3 oxidation state increases down the group.

Question 12

Describe the structure and bonding in Al2Cl6

Answer 12

Aluminium Hexachloride (Al2Cl6) is a donor-acceptor dimer. It is made up of two separate, identical molecules which are linked together by two dative bonds. Two atoms of chlorine share their lone pair of electrons with two atoms of aluminium to form the dative bonds.

Question 13

Draw the structure of Al2Cl6

Answer 13

Question 14

Describe the structure and bonding in NH3BF3

Answer 14

NH3BF3 is a donor-acceptor compound.
There is a dative coordinate bond formed between the nitrogen and boron atoms, where nitrogen supplies both the electrons for the covalent bond.

Question 15

Describe the structure of cubic boron nitride

Answer 15

The cubic form of boron nitride consists of alternately linked boron and nitrogen atoms. The structure is a tetrahedral bond network which is similar to that of the carbon atoms in diamond. The lone pair of electrons on nitrogen are accepted by boron to give this giant 3D covalent lattice.

Question 16

Describe the structure of hexagonal boron nitride

Answer 16

Hexagonal boron nitride has a layered structure which is similar to graphite. The layers form a 2D giant covalent network. The alternate boron and nitrogen atoms link together and form hexagonal rings in thin layers which are held together by weak intermolecular forces.

Question 17

Explain which boron nitride structure is suitable to be used as a lubricant

Answer 17

The hexagonal boron nitride structure has weak intermolecular forces between the layers and so these layers can slide, making it suitable to be used as a lubricant.

Question 18

Identify the reducing agent in the following reaction
CuO + CO → Cu + CO2

Answer 18

Question 19

What is the chemical equation for the reaction between PbO2 and hydrochloric acid?
Identify the oxidising agent

Answer 19

Question 20

Describe the general acid-base behaviour trend of the Group 4 oxides

Answer 20

Acidity of the Group 4 oxides decreases as you go down the group. The oxides towards the bottom are more basic, however they don’t completely lose their acidic character so they are described as amphoteric.

Question 21

Explain the acid-base properties of carbon dioxide and lead oxide in relation to their position in Group 4

Answer 21

• Carbon is at the top of Group 4 so carbon dioxide is acidic in nature and can react with bases.
• Lead is towards the bottom of Group 4 so lead oxide is amphoteric in nature, meaning it can react with acids and bases.

Question 23

Compare the reactions of CCl4, SiCl4 and PbCl2 with water

Answer 23

Question 24

Why does CCl4 tend to not react with water?

Answer 24

• For the reaction to take place, the oxygen’s lone pair from water needs to bond to the carbon atom in CCl4. The reaction doesn’t occur for various reasons:
• The chlorine atoms are very bulky and the carbon atom is very small so it is hard for the oxygen to get near the carbon atom. There is also a lot of repulsion between the various lone pairs as the oxygen atom gets close to the chlorine atoms, which makes this transition state very unstable. Also, there is not a convenient empty orbital for the oxygen to bond to on the carbon atom.

Question 25

How is SiCl4 able to react with water?

Answer 25

The silicon atom is relatively big so there is space for the oxygen atom on water to attack the silicon atom. Silicon also has empty 3d orbitals which can accept a lone pair of electrons from the oxygen atom.

Question 26

Explain how PbCl2 reacts with water

Answer 26

PbCl2 has a lot of ionic character and therefore can be thought of as being ionic in its reaction with water. PbCl2 is slightly soluble in cold water but much more soluble in hot water.

Question 27

What is the chemical equation for the reaction of SiCl4 with water?

Answer 27

Question 28

What is the chemical equation for the reaction of Pb2+ ions with OH- ions?

Answer 28

Question 29

What is the chemical equation for the reaction of Pb2+(aq) ions with Cl- ions?

Answer 29

Question 30

What is the chemical equation for the reaction of Pb2+(aq) ions with I- ions?

Answer 30

Pb2+ + 2I- → PbI2

Question 31

What is a disproportionation reaction?

Answer 31

A reaction in which a species simultaneously undergoes oxidation and reduction to form two different products.

Question 32

What is the chemical equation for the disproportionation reaction that chlorine undergoes with cold sodium hydroxide?

Answer 32

2NaOH + Cl2 ⟶ NaClO + NaCl + H2O

Question 33

What is the chemical equation for the disproportionation reaction that chlorine undergoes with warm sodium hydroxide?

Answer 33

Question 34

What is the chemical equation for the disproportionation reaction that chlorine undergoes with water?

Answer 34

Question 35

Why are chlorine and chlorate ions used in water treatment?

Answer 35

They kill bacteria which makes the water safe. This is a result of their oxidising power.

Question 36

How do chlorine and fluorine react with concentrated sulfuric acid?

Answer 36

Question 37

How do bromide ions react with concentrated sulfuric acid?

Answer 37

Question 38

How do iodide ions react with concentrated sulfuric acid?

Answer 38