Maths Skill: Using Logarithms When Investigating Bacteria

Question 1

Bacterial colonies can grow at rapid rates when in culture with very large numbers of bacteria produced within hours

Dealing with the experimental data relating to large numbers of bacteria can be difficult when using traditional linear scales

There is a wide range of very small and very large numbers

This makes it hard to work out a suitable scale for the axes of graphs

Logarithmic scales can be very useful when investigating bacteri

Question 2

Logarithmic scales allow for a wide range of values to be displayed on a single graph
For example, yeast cells were grown in culture over several hours. The number of cells increased very rapidly from the original number of cells present

The results from the experiment are shown in the graph below, using a log scale

The number of yeast cells present at each time interval was converted to a logarithm before being plotted on the graph

The log scale is easily identifiable as there are not equal intervals between the numbers on the y-axis

The wide range of cell numbers fit easily onto the same scale

Question 3

You won’t be expected to convert values into logarithms or create a log scale graph in the exam. Instead you might be asked to interpret results that use logarithmic scales or explain the benefit of using one! Remember that graphs with a logarithmic scale have uneven intervals between values on one or more axes.