This question is about oxygen and substances containing oxygen - AQA - GCSE Chemistry - Question 3 - 2017 - Paper 1

The type of bonding in an oxygen molecule is covalent bonding. In this bond, the two oxygen atoms share a pair of electrons to achieve a full outer shell.

Oxygen has a low boiling point due to weak intermolecular forces between its molecules. These weak forces require little energy to overcome, thus allowing oxygen to remain in a gaseous state at lower temperatures. Additionally, because oxygen is a small, simple molecule, it has fewer interactions with surrounding molecules, contributing to its low boiling point.

The balanced equation for the reaction of magnesium with oxygen to produce magnesium oxide is:

When magnesium atoms react with oxygen atoms, magnesium loses two electrons, resulting in the formation of magnesium ions (Mg²⁺), while oxygen gains two electrons to become oxide ions (O²⁻). This transfer of electrons leads to the formation of ionic bonds between these oppositely charged ions, creating magnesium oxide.

Nanoparticles are particles that range from 1 to 100 nanometers in size. They typically contain a few hundred atoms and have a high surface area to volume ratio. This unique characteristic allows them to have distinct physical and chemical properties compared to larger particles.

Silicon dioxide (SiO₂) has a high melting point because of its strong covalent bonds and giant molecular structure. Each silicon atom is bonded to four oxygen atoms, forming a three-dimensional network. This structure requires a significant amount of energy to break these strong bonds, which makes silicon dioxide suitable for lining furnaces that operate at high temperatures, such as the 1500 °C in the given furnace.