Pure and impure substances
Everyday mixtures
Many useful products at home are made from mixtureTwo or more substances that are not joined together. The substances can be elements, compounds, or both.. In some products, these mixtures must be consistent - the mixture must always contain the same substances in proportions that do not change. A mixture that is made according to a set formula like this is called a formulationA mixture that is always made with the same proportions of the same substances..
An impurityA substance, usually unwanted, that is present in another substance. is a small quantity of another substance in an otherwise pureA substance that consists of only one element or only one compound. substance. Products such as medicines must not contain any impurities that could make them unsafe.
Distinguishing between pure substances and mixtures
Scientists need to know that substances made in the laboratory are pure. They also need to be able to test whether a substance is pure or impure. One way to test this is to find the melting pointThe temperature at which a solid changes into a liquid as it is heated. of a substance:
- pure substances have sharp melting points
- mixtures meltingThe process that occurs when a solid turns into a liquid when it is heated. over a range of temperatures
The melting point range of a substance is the temperature range from which the first crystal starts to melt, to the temperature at which the last crystal finishes melting.
Pure substances can be identified by comparing the melting point found in the experiment with published reference data of what the melting point should be.
Question
Which of the following substances (A, B, C, D) are impure?
| Substance | Melting point (掳C) |
| A | 100 |
| B | 97 - 99 |
| C | 82 |
| D | 102 - 104 |
| Substance | A |
|---|---|
| Melting point (掳C) | 100 |
| Substance | B |
|---|---|
| Melting point (掳C) | 97 - 99 |
| Substance | C |
|---|---|
| Melting point (掳C) | 82 |
| Substance | D |
|---|---|
| Melting point (掳C) | 102 - 104 |
Substances B and D are impure. This is because they show a broad melting point range. Substances A and C show sharp melting points and so are pure.