Physical Properties of Group 7 (AQA A Level Chemistry)
Revision Note
Group 7: Physical Properties
The group 7 elements are called halogens
The halogens have uses in water purification and as bleaching agents (chlorine), as flame-retardants and fire extinguishers (bromine) and as antiseptic and disinfectant agents (iodine)
Colours
All halogens have distinct colours which get darker going down the group
The colours of the Group 7 elements get darker going down the group
Volatility
Volatility refers to how easily a substance can evaporate
A volatile substance will have a low boiling point
The melting and boiling points of the Group 7 elements increase going down the group which indicates that the elements become less volatile
Going down the group, the boiling point of the elements increases which means that the volatility of the halogens decreases
This means that fluorine is the most volatile and iodine the least volatile
Bond Strength
Halogens are diatomic molecules in which covalent bonds are formed by overlapping their orbitals
In a covalent bond, the bonding pair of electrons is attracted to the nuclei on either side and it is this attraction that holds the molecule together
Going down the group, the atomic size of the halogens increases
The bonding pair of electrons get further away from the halogen nucleus and are therefore less strongly attracted towards it
A covalent bond is formed by the orbital overlap of two atoms and the attraction of electrons towards the nuclei; the bigger the atom, the weaker the covalent bond
Bond enthalpy data
The bond strength of the halogen molecules decreases going down the group
The bond enthalpies decrease indicating that the bond strengths decrease going down the group
Bond enthalpy is the energy needed to break one mole of covalent bonds
The higher the bond enthalpy, the stronger the bond
An exception to this is fluorine which has a smaller bond enthalpy than chlorine and bromine
Fluorine is so small that when two atoms of fluorine get together their lone pairs get so close that they cause significant repulsion counteracting the attraction between the bonding pair of electrons and two nuclei
The lone pairs on fluorine get so close to each other in a fluorine molecule that they cause repulsion which decreases the bond strength
Dipole Forces & Volatility
Halogens are non-metals and are diatomic molecules at room temperature
This means that they exist as molecules which are made up of two similar atoms, such as F2
The halogens are simple molecular structures with weak van der Waals’ forces between the diatomic molecules caused by instantaneous dipole-induced dipole forces
The diagram shows that a sudden imbalance of electrons in a nonpolar molecule can cause an instantaneous dipole. When this molecule gets close to another non-polar molecule it can induce a dipole as the cloud of electrons repel the electrons in the neighbouring molecule to the other side
The more electrons there are in a molecule, the greater the instantaneous dipole-induced dipole forces
Therefore, the larger the molecule the stronger the van der Waals’ forces between molecules
This is why as you go down the group, it gets more difficult to separate the molecules and the melting and boiling points increase
As it gets more difficult to separate the molecules, the volatility of the halogens decreases going down the group
Going down the group, the van der Waals’ forces increase due to an increased number of electrons in the molecules which means that the volatility decreases
Examiner Tips and Tricks
Instantaneous induced – induced dipole forces are a type of van der Waals’ forces.
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