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Mixtures, compounds and elements  (Page 5/8)

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We can also use symbols to represent elements, mixtures and compounds. The symbols for the elements are all found on the periodic table. Compounds are shown as two or more element names written right next to each other. Subscripts may be used to show that there is more than one atom of a particular element. (e.g. H 2 O or NaCl ). Mixtures are written as: a mixture of element (or compound) A and element (or compound) B. (e.g. a mixture of Fe and S ).

One way to think of mixtures and compounds is to think of buildings. The building is a mixture of different building materials (e.g. glass, bricks, cement, etc.). The building materials are all compounds. You can also think of the elements as Lego blocks. Each Lego block can be added to other Lego blocks to make new structures, in the same way that elements can combine to make compounds.

For each of the following substances state whether it is a pure substance or a mixture. If it is a mixture, is it homogenous or heterogenous? If it is a pure substance is it an element or a compound?

  1. Blood
  2. Argon
  3. Silicon dioxide ( SiO 2 )
  4. Sand and stones

  1. Blood is a mixture since it is made up of many different compounds and substances. Blood is a homogenous mixture since you cannot see the individual components and the components are uniformly distributed.
  2. Argon is a pure substance. Argon is an element since we can find it on the periodic table.
  3. Silicon dioxide is a pure substance. It is a compound since it is made of the elements silicon and oxygen joined in a fixed ratio.
  4. Sand and stones form a mixture. There are two distinct compounds. It is a heterogenous mixture since the particles are not uniformly distributed and we can see the individual pieces.

Activity: using models to represent substances

Use coloured balls and sticks to represent elements and compounds. Some examples that you can try to build are:
  • Hydrogen
  • Oxygen
  • Nitrogen
  • Neon
  • Sodium chloride (salt, NaCl )
  • Potassium permanganate ( KMnO 4 )
  • Water ( H 2 O )
  • Iron sulphide ( FeS )
Think about the way that we represent substances microscopically. Would you use just one ball to represent an element or many? Why?

Elements, mixtures and compounds

  1. In the following table, tick whether each of the substances listed is a mixture or a pure substance . If it is a mixture, also say whether it is a homogeneous or heterogeneous mixture.
    Substance Mixture or pure Homogeneous or heterogeneous mixture
    fizzy colddrink
    steel
    oxygen
    iron filings
    smoke
    limestone ( CaCO 3 )
  2. In each of the following cases, say whether the substance is an element, a mixture or a compound.
    1. Cu
    2. iron and sulphur
    3. Al
    4. H 2 SO 4
    5. SO 3

Giving names and formulae to substances

Think about what you call your friends. Their full name is like the substances name and their nickname is like the substances formulae. Without these names your friends would have no idea which of them you are referring to. In the same way scientists like to have a consistent way of naming things and a short way of describing the thing being named. This helps scientists to communicate efficiently.
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Source:  OpenStax, Siyavula textbooks: grade 10 physical science [caps]. OpenStax CNX. Sep 30, 2011 Download for free at http://cnx.org/content/col11305/1.7
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