For each type of hypothesis test described below, identify the type of test statistic and, if appropriate, the degrees of freedom. A Goodness-of-Fit test, with 8 categories and a sample size of 89. A. Chi-Squared with df = 88. B. Chi-Squared with df = 8. C. Chi-Squared with df = 87. D. Chi-Squared with df = 89. E. Chi-Squared with df = 7. F. Chi-Squared with df = 9. A Goodness-of-Fit test, with 7 categories and a sample size of 13. A. Student-T with df = 12. B. Student-T with df = 6. C. Chi-Squared with df = 6. D. Normal with mean = 13 and standard deviation 7. E. Standard Normal. F. Chi-Squared with df = 12. A test for independent factors, with 4 rows, 6 columns, and a sample size of 129. A. Student-T with df = 3. B. Chi-Squared with df = 24. C. Standard Normal. D. Chi-Squared with df = 23. E. Student-T with df = 128. F. Chi-Squared with df = 15.
For each type of hypothesis test described below, identify the type of test statistic and, if appropriate, the degrees of freedom.
A Goodness-of-Fit test, with 8 categories and a
A. Chi-Squared with df = 88.
B. Chi-Squared with df = 8.
C. Chi-Squared with df = 87.
D. Chi-Squared with df = 89.
E. Chi-Squared with df = 7.
F. Chi-Squared with df = 9.
A Goodness-of-Fit test, with 7 categories and a sample size of 13.
A. Student-T with df = 12.
B. Student-T with df = 6.
C. Chi-Squared with df = 6.
D. Normal with mean = 13 and standard deviation 7.
E. Standard Normal.
F. Chi-Squared with df = 12.
A test for independent factors, with 4 rows, 6 columns, and a sample size of 129.
A. Student-T with df = 3.
B. Chi-Squared with df = 24.
C. Standard Normal.
D. Chi-Squared with df = 23.
E. Student-T with df = 128.
F. Chi-Squared with df = 15.
Step by step
Solved in 3 steps with 3 images
