A buyer for a t-shirt shop wants to compare the proportion of t-shirts of each size that are sold to the proportion that were ordered. The buyer counts the number of t-shirts of each size that are sold in a week.
The buyer performs a chi-square goodness-of-fit test to determine whether the proportions of t-shirt sizes sold are consistent with the proportion of t-shirt sizes ordered.
Choose Stat > Tables > Chi-Square Goodness-of-Fit Test (One
In Observed counts, enter Counts.
In Category names (optional), enter Size.
Under Test, select Specific proportions, and enter Proportions
Interpret the results
In these results, the observed count for each t-shirt size is not very different from the expected count. The break-down by size is as follows:
25 small shirts were sold, while 22.5 were expected to be sold.
41 medium shirts were sold, while 45 were expected to be sold.
91 large shirts were sold, while 90 were expected to be sold.
68 extra-large shirts were sold, while 67.5 were expected to be sold.
The largest difference between observed and expected sales is in the medium category. Consequently, this category has the largest contribution to the chi-square statistic, 0.355.
The overall chi-square statistic is 0.648 and has a p-value of 0.885. Because the p-value is greater than the significance level of 0.05, the buyer fails to reject the null hypothesis. The buyer concludes that there is not a significant difference between the observed t-shirt sales and the expected t-shirt sales.