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AÂ **Chi-Square Goodness of Fit TestÂ **is used to determineÂ whether or not a categorical variable follows a hypothesized distribution.

This tutorial explains how to perform a Chi-Square Goodness of Fit Test in R.

**Example: Chi-Square Goodness of Fit Test in R**

A shop owner claims that an equal number of customers come into his shop each weekday. To test this hypothesis, a researcher records the number of customers that come into the shop in a given week and finds the following:

**Monday:Â**50 customers**Tuesday:Â**60 customers**Wednesday:Â**40 customers**Thursday:Â**47Â customers**Friday:Â**53 customers

Use the following steps to perform a Chi-Square goodness of fit test in R to determine if the data is consistent with the shop ownerâ€™s claim.

**Step 1: Create the data.**

First, we will create two arrays to hold our observed frequencies and our expected proportion of customers for each day:

observed #must add up to 1

**Step 2: Perform the Chi-Square Goodness of Fit Test.**

Next, we can perform the Chi-Square Goodness of Fit Test using theÂ **chisq.test()** function, which uses the following syntax:

**chisq.test(x, p)Â **

where:

**x:**A numerical vector of observed frequencies.**p:**A numerical vector of expected proportions.

The following code shows how to use this function in our example:

#perform Chi-Square Goodness of Fit Test chisq.test(x=observed, p=expected) Chi-squared test for given probabilities data: observed X-squared = 4.36, df = 4, p-value = 0.3595

TheÂ Chi-Square test statistic is found to be **4.36Â **and the corresponding p-value isÂ **0.3595**.

Note that the p-value corresponds to a Chi-Square value with n-1 degrees of freedom (dof), where n is the number of different categories. In this case, dof = 5-1 = 4.

You can use the Chi-Square to P Value CalculatorÂ to confirm that the p-value that corresponds to X^{2} = 4.36 with dof = 4 isÂ **0.35947**.

Recall that a Chi-Square Goodness of Fit Test uses the following null and alternative hypotheses:

**H**A variable follows a hypothesized distribution._{0}: (null hypothesis)Â**H**A variable does not follow a hypothesized distribution._{1}: (alternative hypothesis)Â

Since the p-value (.35947) is not less than 0.05, we fail to reject the null hypothesis. This means we do not have sufficient evidence to say that the true distribution of customers is different from the distribution that the shop owner claimed.

**Additional Resources**

How to Perform a Chi-Square Test of Independence in R

How to Calculate the P-Value of a Chi-Square Statistic in R

How to Find the Chi-Square Critical Value in R