Bivariate data is the technical name for numerical data consisting of two variables organized into pairs of values. When we are analyzing bivariate data we are interested in determining whether there is a relationship between the two variables.
We may, for example, conduct an experiment where we measure how much time a person spends lifting weights in a week and how many pull ups they can do in a row. The two variables here are time spent lifting weights and number of pull ups. We can describe these as the independent variable and the dependent variable.
In our example a person can freely choose how much time they will spend lifting weights, so that is the independent variable. The number of pull ups they are able to do depends on how much weight lifting they do so the number of pull ups is the dependent variable. See the table below for some data collected on these variables.
Time lifting weights (in minutes) | Number of pull ups |
---|---|
45 | 12 |
13 | 4 |
67 | 13 |
35 | 10 |
Notice from the table above, it seems like the more time spent lifting weights, the more pull ups a person is able to do, but it is often useful to display data like this graphically to see if that is really what is happening. Each data pair represents a point on the graph. We plot the data points with the value of the independent variable on the horizontal \left(x\right) axis and the value of the dependent variable on the vertical \left(y\right) axis. In our example the point \left(45, 12\right) would represent a person who lifts weights for 45 minutes and is able to do 12 pull ups.
Consider the following variables:
Number of people at the beach
Season
Which of the following statements makes sense?
Which is the dependent variable and which is the independent variable?
The linear graph shows the relationship between Lesley's savings (in dollars) over a few months.
Which variable is the dependent variable?
Which variable is the independent variable?
Independent variable - the input, it can be changed freely, does not depend on any other variables.
Dependent variable - the output, it changes as a result of the independent variable, it depends on the value of the independent variable
We plot the data points with the value of the independent variable on the horizontal \left(x\right) axis and the value of the dependent variable on the vertical \left(y\right) axis.