Bonding & Properties
Determining the position of a compound in the bonding triangle
- We can use the electronegativity of elements and binary compounds to find their position in the bonding triangle
- For example, take sodium chloride:
Substance | Average electronegativity | Electronegativity difference | Where it is in the triangle |
Na | 0.9 | 0.9 - 0.9 = 0.0 | Bottom left of the triangle. Na is 100% metallic |
Cl2 | 3.2 | 3.2 - 3.2 = 0.0 | Bottom right corner. Cl2 is 100% covalent |
NaCl | Centre top of the triangle. It is about 70% ionic on the triangle |
Sodium chloride bonding triangle
The location of sodium chloride on the bonding triangle using electronegativity values
Worked example
Use the bonding triangle and electronegativity values from Section 9 of the data booklet to mark the location for the following substances:
a) phosphorus
b) caesium iodide
c) brass (an alloy of copper and zinc)
Answer
Substance | Average electronegativity | Electronegativity difference |
a) phosphorus | 2.2 | 0 |
b) caesium chloride | ||
c) brass (an alloy of copper and zinc) |
Percentages of Bonding Type
- We can also use the bonding triangle to assess the percentage of ionic or covalent character in a compound
- Take aluminium chloride and aluminium oxide as an example:
Substance | Average electronegativity | Electronegativity difference | Bonding character |
aluminium oxide | Ionic. About 60% ionic | ||
aluminium chloride | Polar covalent. About 50% covalent |
Percentage of ionic or covalent character diagram
The percentage of bonding type character in aluminium oxide and aluminium chloride can be assessed using the bonding triangle
- From this analysis, we can see why there is a significant difference in properties between aluminium oxide and aluminium chloride
- The melting point of the oxide is 2072 oC, whereas the chloride is 192oC
- The bonding triangle continuum allows for a more accurate assessment of bonding type and the prediction of associated properties
Exam Tip
Calculations of percentage ionic character are not required.