You intend to conduct a goodness-of-fit test for a multinomial distribution with 6 categories. You collect...
You intend to conduct a goodness-of-fit test for a multinomial distribution with 4 categories. You collect data from 63 subjects. What are the degrees of freedom for the χ 2 distribution for this test?
You intend to conduct a goodness-of-fit test for a multinomial distribution with 4 categories. You collect data from 87 subjects. What are the degrees of freedom for the χ2χ2 distribution for this test? d.f. =
11.2 You intend to conduct a goodness-of-fit test for a multinomial distribution with 7 categories. You collect data from 74 subjects. What are the degrees of freedom for the x2 distribution for this test? d.f. = Submit License Question 1. Points possible: 1 Unlimited attempts. You are conducting a multinomial Chi-Square Goodness of Fit hypothesis test for the claim that the 4 categories occur with the following frequencies: Ho:PA = 0.2; PB = 0.3; pc = 0.3; PD = 0.2...
For a multinomial experiment with k categories, the goodness-of-fit test statistic is assumed to follow a chi-square distribution with n-1 degrees of freedom. True False
You intend to conduct a test of independence for a contingency table with 8 categories in the column variable and 2 categories in the row variable. You collect data from 349 subjects. What are the degrees of freedom for the ? 2 distribution for this test? d.f. =
The chi-square goodness of fit test can be used when: Select one: a. We conduct a multinomial experiment. b. We perform a hypothesis test to determine if a population has a normal distribution. c. We perform a hypothesis test to determine if two population variances significantly differ from each other. d. We conduct a binomial experiment. The x statistic from a contingency table with 6 rows and five columns will have Select one: a. 24 degrees of freedom b. 50...
You are conducting a multinomial Goodness of Fit hypothesis test for the claim that the 4 categories occur with the following frequencies: H o : p A = 0.3 ; p B = 0.1 ; p C = 0.1 ; p D = 0.5 Complete the table. Report all answers accurate to three decimal places. Category Observed Frequency Expected Frequency A 50 B 38 C 19 D 66 What is the chi-square test-statistic for this data? χ 2 = What...
A test of goodness-of-fit for a multinomial distribution where Ho: p1=.2, p2=.5, p3=.3 results in a the x2 statistic equals 6.7, at a=.05 you should conclude: Group of answer choices A. The sample is uniformly distributed. B. The sample is normally distributed. C. There is no evidence against the hypothesized multinomial distribution. D. There is evidence that the sample does not come from the hypothesized multinomial distribution.
You are conducting a multinomial Goodness of Fit hypothesis test for the claim that the 4 categories occur with the following frequencies Complete the table. Report all answers accurate to three decimal places Observed Expected Category Frequency Frequency A 51 B 30 С 137 D 41 What is the chi-square test-statistic for this data? What is the P-Value? P-Value- For significance level alpha 0.05, What would be the conclusion of this hypothesis test? O Fail to reject the Null Hypothesis...
You are conducting a multinomial Goodness of Fit hypothesis test for the claim that the 4 categories occur with the following frequencies: Ho : pA=0.3; pB=0.15; pC=0.15; pD=0.4 Complete the table. Report all answers accurate to three decimal places. Category Observed Frequency Expected Frequency A 29 B 41 C 12 D 53 What is the chi-square test-statistic for this data? χ2= What is the P-Value? P-Value = For significance level alpha 0.05, what would be the conclusion of this hypothesis...