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Metals and non-metals - EdexcelMetals vs non-metals

Metals and non-metals have different properties. Properties of metals can be explained in terms of metallic structure and bonding. Different chemical models have different features and limitations.

Part of Combined ScienceKey concepts in chemistry

Metals vs non-metals

are placed on the left-hand side of the periodic table, and on the right.

Physical properties

The table summarises some typical of metals and non-metals.

MetalsNon-metals
ShinyDull
High melting pointsLow melting points
Good conductors of electricityPoor conductors of electricity
Good conductors of heatPoor conductors of heat
High densityLow density
MalleableBrittle
MetalsShiny
Non-metalsDull
MetalsHigh melting points
Non-metalsLow melting points
MetalsGood conductors of electricity
Non-metalsPoor conductors of electricity
MetalsGood conductors of heat
Non-metalsPoor conductors of heat
MetalsHigh density
Non-metalsLow density
MetalsMalleable
Non-metalsBrittle

Some have properties that are not typical. For example:

  • mercury (a metal) has a low and exists as a liquid at room temperature
  • graphite, a form of carbon (a non-metal), has a high and is also a good of electricity

A substance with a high means it has a high mass for its size.

substances can be bent or hammered into shape without shattering, while substances shatter when bent or hit.

means that a substance can be drawn out into a long wire without snapping or breaking.

Metallic structure and bonding

In metals, the leave the outer shells of metal , forming positive metal and a 'sea' of electrons. The structure of a solid metal consists of closely packed metal ions, arranged in a regular way to form a metallic structure.

Delocalised electrons moving freely among an array of tightly packed metal atoms.
Figure caption,
A model for the structure of metals

Metallic bonding is the strong of attraction between the metal ions and the delocalised electrons.

Learn more on metallic bonding in this podcast.

Explaining metal properties

Malleability

Metals are malleable because layers of ions can slide over each other when a force is applied. Metallic bonding allows the metal to change shape without shattering.

Conduction of electricity

When a is applied to a metal, the delocalised electrons travel through the lattice structure. The movement of these forms an .