s & p Block Elements (DP IB Chemistry)
Revision Note
Trends in s & p Block Metals
What determines the strength of metallic bonds?
Not all metallic bonds are equal
There are several factors that affect the strength of a metallic bond:
The charge on the metal ion
The greater the charge on the metal ion, the greater the number of electrons in the sea of delocalised electrons and the greater the charge difference between the ions and the electrons
A greater charge difference leads to a stronger electrostatic attraction, and therefore a stronger metallic bond
This effect can be seen in melting point data across a period, as the charge on the metal ion increases without a significant change in ionic radius:
Melting point data of the Period 3 metals
Group | 1 | 2 | 3 (13) |
|---|---|---|---|
Metal | Sodium | Magnesium | Aluminium |
Melting point / K | 371 | 923 | 933 |
The melting point of the metal increases moving across a period, from left to right
The radius of the metal ion
Metal ions with smaller ionic radii exert a greater attraction on the sea of delocalised electrons
This greater attraction means a stronger metallic bond, requiring more energy to break
This can be seen in data from metals, descending a group, where the charge on the ion remains constant but the ionic radius increases:
Melting point data of the Group 1 metals
Period | 3 (13) | 4 | 5 |
|---|---|---|---|
Metal | Sodium | Potassium | Rubidium |
Melting point / K | 371 | 336 | 312 |
The melting point of the metal decreases moving down a group
Trends in Melting Points of Metals
The strength of electrostatic attraction can be increased by:
Increasing the number of delocalised electrons per metal atom
Increasing the number of positive charges on the metal centres in the lattice
Decreasing the size of the metal ions
These factors can be seen in the trends across a period and down a group
Melting points of metals across a period
If you compare the electron configuration of sodium, magnesium and aluminium you can see the number of valence electrons increases
Na = 1s22s22p63s1
Mg = 1s22s22p63s2
Al = 1s22s22p63s23p1
Aluminium ions are also a smaller size than magnesium ions or sodium ions and these two factors lead to stronger metallic bonding which can be seen in the melting points
The stronger the metallic bonding, the more energy is needed to break the metallic lattice and so the higher the melting point
As we go across Period 3, we can see the effect of stronger metallic bonding on the metals
Remember: Only the first three elements have metallic bonding in this graph
Melting point of elements across a period chart
Melting points as you go across a period. The metallic bonding gets stronger from Na to Al
Melting points of metals down a group
As you go down the group, the size of the cation increases
This decreases the attraction between the outer electrons and the metallic lattice
Therefore, there is a reduction in the melting point
Melting point of metals down a group chart
Melting points as you go down a group of metals. The metallic bonding gets weaker from Li to Cs
Examiner Tips and Tricks
You see from the chart that the melting point of aluminium is not that much higher than magnesium
It is a reminder to us that these are trends and not rules about melting points and sometimes there are other factors which can result in subtle differences from what was expected
One factor here is the metal packing structure, which can also influence the melting point
This is beyond what is required in the IB Chemistry syllabus, you just need to learn and explain the broad trends
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