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When we would like to calculate the correlation between two continuous variables, we typically use the Pearson correlation coefficient.

However, when we would like to calculate the correlation between a continuous variable and a categorical variable, we can use something known as **point biserial correlation**.

Point biserial correlation is used to calculate the correlation between a binary categorical variable (a variable that can only take on two values) and a continuous variable and has the following properties:

- Point biserial correlation can range between -1 and 1.
- For each group created by the binary variable, it is assumed that the continuous variable is normally distributed with equal variances.
- For each group created by the binary variable, it is assumed that there are no extreme outliers.

The following example shows how to calculate a point biserial correlation in practice.

**Example: Calculating a Point Biserial Correlation**

Suppose a college professor would like to determine if there is a correlation between gender and score on particular aptitude exam.

He collects the following data on 12 males and 12 females in his class:

Since **gender** is a categorical variable and **score** is a continuous variable, it makes sense to calculate a point-biserial correlation between the two variables.

The professor can use any statistical software (including Excel, R, Python, SPSS, Stata) to calculate the point-biserial correlation between the two variables.

The following code shows how to calculate the point-biserial correlation in R, using the value 0 to represent females and 1 to represent males for the gender variable:

#define values for gender gender #define values for score score #calculate point-biserial correlation cor.test(gender, score) Pearson's product-moment correlation data: gender and score t = 1.3739, df = 22, p-value = 0.1833 alternative hypothesis: true correlation is not equal to 0 95 percent confidence interval: -0.1379386 0.6147832 sample estimates: cor 0.2810996

From the output we can see that the point biserial correlation coefficient is **0.281** and the corresponding p-value is **0.1833**.

Since the correlation coefficient is positive, it tells us that there is a positive correlation between gender and score.

Since we coded the males as 1 and females as 0, this indicates that scores tend to be higher for males (i.e. scores tend to increase as gender “increases” from 0 to 1)

However, since the p-value is not less than .05, this correlation coefficient is not statistically significant.

**Additional Resources**

The following tutorials explain how to calculate point biserial correlation using different statistical software:

How to Calculate Point-Biserial Correlation in Excel

How to Calculate Point-Biserial Correlation in R

How to Calculate Point-Biserial Correlation in Python