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Calculations in chemistry - AQAChemical measurements

Relative formula masses can be calculated and used in conservation of mass calculations. Calculations can be carried out to find out concentrations of solution and uncertainties in measurements.

Part of Combined ScienceQuantitative chemistry

Chemical measurements

Whenever a measurement is made in chemistry, there is always some in the result obtained. There are many causes of uncertainty in chemical measurements. For example it may be difficult to judge:

  • whether a thermometer is showing a temperature of 24.0掳C, 24.5掳C or 25.0掳C
  • exactly when a chemical reaction has finished

There are two ways of estimating uncertainty:

  • by considering the of measuring instruments
  • from the of a set of repeat measurements

Estimating uncertainty from measuring instruments

The resolution of a measuring instrument is the smallest change in a quantity that gives a change in the reading that can be seen. A thermometer with a mark at every 1.0掳C has a resolution of 1.0掳C. It has a higher resolution than a thermometer with a mark at every 2.0掳C.

The uncertainty of a measuring instrument is estimated as plus or minus (卤) half the smallest scale division. For a thermometer with a mark at every 1.0掳C, the uncertainty is 卤 0.5掳C. This means that if a student reads a value from this thermometer as 24.0掳C, they could give the result as 24.0掳C 卤 0.5掳C.

For a measuring instrument, the uncertainty is half the last digit shown on its display. For a timer reading to 0.1 s, the uncertainty is 卤 0.05 s.

Estimating uncertainty from sets of repeat measurements

For a set of repeat measurements, the uncertainty is 卤 half the range. This means that the value can be given as the mean value 卤 half the range.

Worked example

Question

The table shows five measurements for the volume of acid required in a neutralisation reaction.

Calculate the mean volume and estimate the uncertainty.

Test number12345
Volume24.024.523.525.023.0
Test number
1
2
3
4
5
Volume
24.0
24.5
23.5
25.0
23.0

Showing uncertainty on a graph

Uncertainty can also be shown on a graph. All the repeat readings for each value of the independent variable are plotted. Vertical lines joining these values represent the uncertainty.

A graph showing the repeat readings for each value of the independent variable. The short vertical lines represent uncertainty
Figure caption,
A graph showing the repeat readings for each value of the independent variable. The short vertical lines represent uncertainty.