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You are here: Home Grade 10 Physical Sciences Classification of matter Pure substances

Pure substances

Any material that is not a mixture, is called a pure substance. Pure substances include elements and compounds. It is much more difficult to break down pure substances into their parts, and complex chemical methods are needed to do this.

Classifying matter

We can use melting and boiling points and chromatography to test for pure substances. Pure substances have a sharply defined (one temperature) melting or boiling point. Impure substances have a temperature range over which they melt or boil. Chromatography is the process of separating substances into their individual components. If a substance is pure then chromatography will only produce one substance at the end of the process. If a substance is impure then several substances will be seen at the end of the process.

Activity 1: Recommended practical activity: Smartie chromatography

You will need:

  • filter paper (or blotting paper)

  • some smarties in different colours

  • water

  • an eye dropper.

Place a smartie in the centre of a piece of filter paper. Carefully drop a few drops of water onto the smartie, until the smartie is quite wet and there is a ring of water on the filter paper. After some time you should see a coloured ring on the paper around the smartie. This is because the food colouring that is used to make the smartie colourful dissolves in the water and is carried through the paper away from the smartie.

Smartie chromatography

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Photo by Neil Ravenscroft - UCT

Elements

An element is a chemical substance that can't be divided or changed into other chemical substances by any ordinary chemical means. The smallest unit of an element is the atom.

Definition 1: Element

An element is a substance that cannot be broken down into other substances through chemical means.

There are 112 officially named elements and about 118 known elements. Most of these are natural, but some are man-made. The elements we know are represented in the periodic table, where each element is abbreviated to a chemical symbol. Table 1 gives the first 20 elements and some of the common transition metals.

Interesting Fact:

Recently it was agreed that two more elements would be added to the list of officially named elements. These are elements number 114 and 116. The proposed name for element 114 is flerovium and for element 116 it is moscovium. This brings the total number of officially named elements to 114.

Table 1: List of the first 20 elements and some common transition metals

Element name

Element symbol

Element name

Element symbol

Hydrogen

H

Phosphorus

P

Helium

He

Sulphur

S

Lithium

Li

Chlorine

Cl

Beryllium

Be

Argon

Ar

Boron

B

Potassium

K

Carbon

C

Calcium

Ca

Nitrogen

N

Iron

Fe

Oxygen

O

Nickel

Ni

Fluorine

F

Copper

Cu

Neon

Ne

Zinc

Zn

Sodium

Na

Silver

Ag

Magnesium

Mg

Platinum

Pt

Aluminium

Al

Gold

Au

Silicon

Si

Mercury

Hg

Compounds

A compound is a chemical substance that forms when two or more different elements combine in a fixed ratio. Water (H2O), for example, is a compound that is made up of two hydrogen atoms for every one oxygen atom. Sodium chloride (NaCl) is a compound made up of one sodium atom for every chlorine atom. An important characteristic of a compound is that it has a chemical formula, which describes the ratio in which the atoms of each element in the compound occur.

Definition 2: Compound

A substance made up of two or more different elements that are joined together in a fixed ratio.

Particles inside compounds

Figure 1 might help you to understand the difference between the terms element, mixture and compound. Iron (Fe) and sulphur (S) are two elements. When they are added together, they form a mixture of iron and sulphur. The iron and sulphur are not joined together. However, if the mixture is heated, a new compound is formed, which is called iron sulphide (FeS).

Figure 1: A mixture of iron and sulphur
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Figure 2: A model of the iron sulphide crystal
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Note:

Figure 1 showed a submicroscopic representation of a mixture. In a submicroscopic representation we use circles to represent different elements. To show a compound, we draw several circles joined together. Mixtures are simply shown as two or more individual elements in the same box. The circles are not joined for a mixture.

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.H2O or NH3). Mixtures are written as: a mixture of element (or compound) A and element (or compound) B. (e.g. a mixture of Fe and S).

Example 1: Mixtures and pure substances

Question

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

  1. Blood (which is made up from plasma and cells)

  2. Argon

  3. Silicon dioxide (SiO2)

  4. Sand and stones

Answer

Apply the definitions

An element is found on the periodic table, so we look at the periodic table and find that only argon appears there. Next we decide which are compounds and which are mixtures. Compounds consist of two or more elements joined in a fixed ratio. Sand and stones are not elements, neither is blood. But silicon is, as is oxygen. Finally we decide whether the mixtures are homogeneous or heterogeneous. Since we cannot see the separate components of blood it is homogeneous. Sand and stones are heterogeneous.

Write the answer
  1. Blood is a homogeneous mixture.

  2. Argon is a pure substance. Argon is an element.

  3. Silicon dioxide is a pure substance. It is a compound.

  4. Sand and stones form a heterogeneous mixture.

Activity 2: Using models to represent substances

The following substances are given:

  • Air (consists of oxygen, nitrogen, hydrogen, water vapour)

  • Hydrogen gas (H2)

  • Neon gas

  • Steam

  • Ammonia gas (NH3)

  1. Use coloured balls to build models for each of the substances given.

  2. Classify the substances according to elements, compounds, homogeneous mixtures, heterogeneous mixture, pure substance, impure substance.

  3. Draw submicroscopic representations for each of the above examples.

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Exercise 1: Elements, mixtures and compounds

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.

Table 2

Substance

Mixture or pure

Homogeneous or heterogeneous mixture

fizzy colddrink

   

steel

   

oxygen

   

iron filings

   

smoke

   

limestone (CaCO3)

   

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. H2SO4

  5. SO3

1) Element

 

2) Mixture

 

3) Element

 

4) Compound

 

5) Compound