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Key points

  • Most materials that we use are , and just a few are pure elements or pure compounds.
  • In chemistry, a pure substance is a single substance made of only one type of particle.
  • change the temperature at which a melts and boils.
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Cartons of fruit juice often say they contain 鈥榩ure鈥 juice. Does the word 鈥榩ure鈥 have the same meaning for a scientist as it does in everyday life?

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Video

Watch this video to find out about the difference between pure and impure substances.

Is the air that we breathe a pure or impure substance?

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Pure substances

Salt in a bowl. Label says 'salt' and 'pure'
Image caption,
A bowl of salt

substances are made from only one chemical or one .

For example, salt is a pure substance made only of sodium chloride.

Salt in a bowl. Label says 'salt' and 'pure'
Image caption,
A bowl of salt
A sign which says 'remember'
  • Elements are listed on the periodic table
  • Elements are made from one type of
  • A compound is made from two or more elements bonded together

Can you name two examples of compounds?

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Impure substances

Impurities

A substance made from more than one element or one compound is impure, meaning it is a .

A label from a bottle of mineral water.
Image caption,
Mineral water is a mixture of water and other substances

A label for a bottle of water will often include a list of small amounts of other . These are called impurities.

For example, it is challenging to make pure water. This mineral water contains small amounts of such as sodium and nitrate.

A label from a bottle of mineral water.
Image caption,
Mineral water is a mixture of water and other substances

Which of the following, if any, is a pure substance?

  • Sea water
  • Water in a mountain stream
  • Distilled water in the school science laboratory
  • None of the above

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Particle diagrams

Particle diagrams are used to show how chemicals are arranged.

Elements

Three oxygen molecules, coloured red, grouped in pairs.
Image caption,
Pure element - oxygen

A particle diagram for an element鈥痺ill have only one type of鈥痑tom.
For example, pure oxygen contains only oxygen atoms. Oxygen is shown here as a red circle.

Three oxygen molecules, coloured red, grouped in pairs.
Image caption,
Pure element - oxygen

Compounds

Carbon dioxide
Image caption,
Pure compound - carbon dioxide
  • A particle diagram for a compound will have two or more types of atom bonded together in a鈥痜ixed ratio.
  • The compound of carbon dioxide is made up of two types of atom, shown here as one red and one black circle. Carbon is shown as black and oxygen is red.
  • The compound has a fixed ratio of one black atom joined to two red atoms.
Carbon dioxide
Image caption,
Pure compound - carbon dioxide

Mixtures

A particle diagram for a mixture has more than one type of atom which are not chemically bonded together, or more than one type of molecule.

Three pairs of oxygen elements in red and three helium atoms as individual white circles
Image caption,
A mixture of two elements - helium and oxygen

For example, this particle diagram shows helium in white and oxygen in red.

The two red atoms are joined together but not to the white atom, so this is a mixture of two elements.

Three pairs of oxygen elements in red and three helium atoms as individual white circles
Image caption,
A mixture of two elements - helium and oxygen
Alcohol and water
Image caption,
A mixture of two compounds - water mixed with alcohol
Air particles shown as a mixture of two single red circles with two small white circles attached, three pairs of red circles, seven pairs of blue circles and one two red circles attached to a black circle.
Image caption,
A mixture of elements and compounds - air
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Fixed boiling points

A pure substance has a fixed and , which means they will always melt or boil at exactly the same temperature. For example, the melting point of pure water is 0 掳C and its boiling point is 100 掳C.

A label which says 'key fact'

Impurities change the melting and boiling point

When a substance contains impurities, its melting and boiling points change. When salt is added to water, the mixture freezes below 0 掳C, and boils at a temperature over 100掳C. However, It is possible to find out if a substance is pure or not by measuring its melting or boiling point.

Two photos of water bubbling in a pan. The left photo shows bubbles labelled as distilled water, 100 degrees c, and the right photo shows bubbles labelled as salted water at 102 degrees c.
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Working scientifically

Using a thermometer

Here are some top tips for using a thermometer to measure the temperature of a substance.

Top tips

  1. Make sure that the bulb of the thermometer is covered by the liquid but not touching the bottom of the container.
  2. Give the thermometer enough time to reach the same temperature as the liquid you鈥檝e dipped it into. Stir the liquid with the thermometer to make sure all the liquid has the same temperature.
  3. Watch the coloured liquid in the thermometer move. When it stops moving, it's ready to read.
  4. Hold the thermometer in the liquid and get down to read the temperature at .

Using a thermometer is a useful measuring tool for collecting data.

Find out more about collecting data in science.

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Test your knowledge

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Play the Atomic Labs game! game

Try out practical experiments in this KS3 science game.

Play the Atomic Labs game!
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More on Pure and impure substances

Find out more by working through a topic