Published on 4 November 2022 by Pritha Bhandari. Revised on 9 January 2023.
Descriptive statistics summarise and organise characteristics of a data set. A data set is a collection of responses or observations from a sample or entire population.
In quantitative research, after collecting data, the first step of statistical analysis is to describe characteristics of the responses, such as the average of one variable (e.g., age), or the relation between two variables (e.g., age and creativity).
The next step is inferential statistics, which help you decide whether your data confirms or refutes your hypothesis and whether it is generalisable to a larger population.
Table of contents
 Types of descriptive statistics
 Frequency distribution
 Measures of central tendency
 Measures of variability
 Univariate descriptive statistics
 Bivariate descriptive statistics
 Frequently asked questions
Types of descriptive statistics
There are 3 main types of descriptive statistics:
 The distribution concerns the frequency of each value.
 The central tendency concerns the averages of the values.
 The variability or dispersion concerns how spread out the values are.
You can apply these to assess only one variable at a time, in univariate analysis, or to compare two or more, in bivariate and multivariate analysis.
Frequency distribution
A data set is made up of a distribution of values, or scores. In tables or graphs, you can summarise the frequency of every possible value of a variable in numbers or percentages.
 Simple frequency distribution table
 Grouped frequency distribution table
Gender  Number 

Male  182 
Female  235 
Other  27 
From this table, you can see that more women than men or people with another gender identity took part in the study.
Library visits in the past year  Percent 

0–4  6% 
5–8  20% 
9–12  42% 
13–16  24% 
17+  8% 
From this table, you can see that most people visited the library between 5 and 16 times in the past year.
Measures of central tendency
Measures of central tendency estimate the center, or average, of a data set. The mean, median and mode are 3 ways of finding the average.
Here we will demonstrate how to calculate the mean, median, and mode using the first 6 responses of our survey.
 Mean
 Median
 Mode
The mean, or M, is the most commonly used method for finding the average.
To find the mean, simply add up all response values and divide the sum by the total number of responses. The total number of responses or observations is called N.
Data set  15, 3, 12, 0, 24, 3 

Sum of all values  15 + 3 + 12 + 0 + 24 + 3 = 57 
Total number of responses  N = 6 
Mean  Divide the sum of values by N to find M:57/6 = 9.5 
The median is the value that’s exactly in the middle of a data set.
To find the median, order each response value from the smallest to the biggest. Then, the median is the number in the middle. If there are two numbers in the middle, find their mean.
Ordered data set  0, 3, 3, 12, 15, 24 

Middle numbers  3, 12 
Median  Find the mean of the two middle numbers: (3 + 12)/2 = 7.5 
The mode is the simply the most popular or most frequent response value. A data set can have no mode, one mode, or more than one mode.
To find the mode, order your data set from lowest to highest and find the response that occurs most frequently.
Ordered data set  0, 3, 3, 12, 15, 24 

Mode  Find the most frequently occurring response: 3 
Measures of variability
Measures of variability give you a sense of how spread out the response values are. The range, standard deviation and variance each reflect different aspects of spread.
Range
The range gives you an idea of how far apart the most extreme response scores are. To find the range, simply subtract the lowest value from the highest value.
Standard deviation
The standard deviation (s) is the average amount of variability in your dataset. It tells you, on average, how far each score lies from the mean. The larger the standard deviation, the more variable the data set is.
There are six steps for finding the standard deviation:
 List each score and find their mean.
 Subtract the mean from each score to get the deviation from the mean.
 Square each of these deviations.
 Add up all of the squared deviations.
 Divide the sum of the squared deviations by N – 1.
 Find the square root of the number you found.
Raw data  Deviation from mean  Squared deviation 

15  15 – 9.5 = 5.5  30.25 
3  3 – 9.5 = 6.5  42.25 
12  12 – 9.5 = 2.5  6.25 
0  0 – 9.5 = 9.5  90.25 
24  24 – 9.5 = 14.5  210.25 
3  3 – 9.5 = 6.5  42.25 
M = 9.5  Sum = 0  Sum of squares = 421.5 
Step 5: 421.5/5 = 84.3
Step 6: √84.3 = 9.18
From learning thats = 9.18, you can say that on average, each score deviates from the mean by 9.18 points.
Variance
The variance is the average of squared deviations from the mean. Variance reflects the degree of spread in the data set. The more spread the data, the larger the variance is in relation to the mean.
To find the variance, simply square the standard deviation. The symbol for variance is s^{2}.
Univariate descriptive statistics
Univariate descriptive statistics focus on only one variable at a time. It’s important to examine data from each variable separately using multiple measures of distribution, central tendency and spread. Programs like SPSS and Excel can be used to easily calculate these.
Visits to the library  

N  6 
Mean  9.5 
Median  7.5 
Mode  3 
Standard deviation  9.18 
Variance  84.3 
Range  24 
If you were to only consider the mean as a measure of central tendency, your impression of the ‘middle’ of the data set can be skewed by outliers, unlike the median or mode.
Likewise, while the range is sensitive to extreme values, you should also consider the standard deviation and variance to get easily comparable measures of spread.
Bivariate descriptive statistics
If you’ve collected data on more than one variable, you can use bivariate or multivariate descriptive statistics to explore whether there are relationships between them.
In bivariate analysis, you simultaneously study the frequency and variability of two variables to see if they vary together. You can also compare the central tendency of the two variables before performing further statistical tests.
Multivariate analysis is the same as bivariate analysis but with more than two variables.
Contingency table
In a contingency table, each cell represents the intersection of two variables. Usually, an independent variable (e.g., gender) appears along the vertical axis and a dependent one appears along the horizontal axis (e.g., activities). You read ‘across’ the table to see how the independent and dependent variables relate to each other.
Number of visits to the library in the past year  

Group  0–4  5–8  9–12  13–16  17+ 
Children  32  68  37  23  22 
Adults  36  48  43  83  25 
Interpreting a contingency table is easier when the raw data is converted to percentages. Percentages make each row comparable to the other by making it seem as if each group had only 100 observations or participants. When creating a percentagebased contingency table, you add the N for each independent variable on the end.
Visits to the library in the past year (Percentages)  

Group  0–4  5–8  9–12  13–16  17+  N 
Children  18%  37%  20%  13%  12%  182 
Adults  15%  20%  18%  35%  11%  235 
From this table, it is more clear that similar proportions of children and adults go to the library over 17 times a year. Additionally, children most commonly went to the library between 5 and 8 times, while for adults, this number was between 13 and 16.
Scatter plots
A scatter plot is a chart that shows you the relationship between two or three variables. It’s a visual representation of the strength of a relationship.
In a scatter plot, you plot one variable along the xaxis and another one along the yaxis. Each data point is represented by a point in the chart.
Frequently asked questions
 What’s the difference between descriptive and inferential statistics?

Descriptive statistics summarise the characteristics of a data set. Inferential statistics allow you to test a hypothesis or assess whether your data is generalisable to the broader population.
 What are the 3 main types of descriptive statistics?

The 3 main types of descriptive statistics concern the frequency distribution, central tendency, and variability of a dataset.
 Distribution refers to the frequencies of different responses.
 Measures of central tendency give you the average for each response.
 Measures of variability show you the spread or dispersion of your dataset.
 What’s the difference between univariate, bivariate and multivariate descriptive statistics?

 Univariate statistics summarise only one variableat a time.
 Bivariate statistics compare two variables.
 Multivariate statistics compare more than two variables.
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Pritha Bhandari
Pritha has an academic background in English, psychology and cognitive neuroscience. As an interdisciplinary researcher, she enjoys writing articles explaining tricky research concepts for students and academics.