Bonding Models
Bonding Models
- Models simplify complex systems and allow us to predict and test theories
- As we have seen, chemical bonding broadly falls into three types: ionic, covalent and metallic
- The bonding types can be used to explain chemical and physical properties of substances
- However, like all models, there are limitations and inaccuracies that arise from oversimplification
- For example, take a substance like aluminium chloride, AlCl3. The compound consists of a metal and non-metal, so the traditional bonding approach would be to predict it has ionic bonding and the associated properties of an ionic compound such as high melting point and boiling point
- Aluminium chloride actually melts at 192oC, so it does not behave like an ionic compound
- The fact we know polar covalent bonds exist arise provides evidence that bonding type is not something that can be easily compartmentalised
- Bonding is best thought of as a continuum of the three different bonding types like the area of an equilateral triangle
A bonding model
Chemical bonding is a continuum of ionic, covalent and metallic bonding
- The location of an element or compound in the bonding triangle is determined by the electronegativity values of the elements present
- The bonding triangle is anchored by two axes, electronegativity difference on the y-axis and average electronegativity on the x-axis
- The symbol for electronegativity is the Greek letter (chi) χ, pronounced 'ky' as in 'sky'
- The average electronegativity of two elements, A and B would be:
- The difference in electronegativity between two elements A and B would be:
The Bonding Triangle
The bonding triangle is used to determine the percentage of ionic, covalent and metallic character in an element or compound
- Since elements have zero difference in electronegativity they would be found along the x-axis depending on the electronegativity value of the individual element
- Ionic compounds have a large difference in electronegativity so would be located in the top centre part or apex of the triangle
- Covalent compounds with a low difference in electronegativity would be found in the bottom right and polar covalent compounds in the zone between ionic and covalent
Exam Tip
- You don't need to learn the bonding triangle as it is found in Section 17 of the Data Booklet
- Electronegativity values are found in the Periodic Table in Section 9.