Are birthdays "evenly distributed" throughout the year, or are they more common during sor year than others? Owners of a children's toy store chain in the Northwest asked just this que data collected by the chain are summarized in the table below. The data were obtained from a random sample of 180 people. The birthdate of each person and each of these dates was placed into one of four categories: winter (December 21-Marc (March 21-June 20), summer (June 21-September 20), and fall (September 21-December in the first row of the table are the frequencies observed in the sample for these season ca numbers in the second row are the expected frequencies under the assumption that birthd likely during each season of the year. The bottom row of numbers gives the following value season categories. (Observed frequency Expected frequency ) fE Expected frequency Part 1 Fill in the missing values in the table. Round your responses for the expected frequencies to two or mor decimal places. Round your responses to three or more decimal places. Send data to Excel Winter Spring Summer Fall Total Observed frequency 32 42 52 54 081 fo Expected frequency 45.00 00 00 1.089 1.800 Part 2 Answer the following to summarize the test of the hypothesis that birthdays are equally likely season of the year. Use the 0.05 level of significance for the test. (a) Determine the type of test statistic to use. Type of test statistic: Chi-square Degrees of freedom:| (b) Find the value of the test statistic. (Round your answer to two or more decimal places.) (c) Find the p-value. (Round your answer to three or more decimal places.) d) Can we reject the hypothesis that birthdays are equally likely during each season of the year? OYes ONo

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Are birthdays "evenly distributed" throughout the year, or are they more common during sor year than others? Owners of a children's toy store chain in the Northwest asked just this que data collected by the chain are summarized in the table below. The data were obtained from a random sample of 180 people. The birthdate of each person and each of these dates was placed into one of four categories: winter (December 21-Marc (March 21-June 20), summer (June 21-September 20), and fall (September 21-December in the first row of the table are the frequencies observed in the sample for these season ca numbers in the second row are the expected frequencies under the assumption that birthd likely during each season of the year. The bottom row of numbers gives the following value season categories. (Observed frequency Expected frequency ) fE Expected frequency

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Part 1 Fill in the missing values in the table. Round your responses for the expected frequencies to two or mor decimal places. Round your responses to three or more decimal places. Send data to Excel Winter Spring Summer Fall Total Observed frequency 32 42 52 54 081 fo Expected frequency 45.00 00 00 1.089 1.800 Part 2 Answer the following to summarize the test of the hypothesis that birthdays are equally likely season of the year. Use the 0.05 level of significance for the test. (a) Determine the type of test statistic to use. Type of test statistic: Chi-square Degrees of freedom:| (b) Find the value of the test statistic. (Round your answer to two or more decimal places.) (c) Find the p-value. (Round your answer to three or more decimal places.) d) Can we reject the hypothesis that birthdays are equally likely during each season of the year? OYes ONo