Lecture 20 Dustin Lueker
The p-value for testing H 1 : µ≠100 is p=.001. This indicates that… 1.There is strong evidence that μ=100 2.There is strong evidence that μ≠100 3.There is strong evidence that μ>100 4.There is strong evidence that μ<100 2STA 291 Fall 2009 Lecture 20
The p-value for testing H 1 : µ≠100 is p=.001. In addition you know that the test statistic was z=3.29. This indicates that… 1.There is strong evidence that μ=100 2.There is strong evidence that μ>100 3.There is strong evidence that μ<100 STA 291 Fall 2009 Lecture 203
Range of values such that if the test statistic falls into that range, we decide to reject the null hypothesis in favor of the alternative hypothesis ◦ Type of test determines which tail(s) the rejection region is in Left-tailed Right-tailed Two-tailed 4STA 291 Fall 2009 Lecture 20
Testing µ ◦ Without the aide of some type of technology it is impossible to find exact p-values when using this test statistic, because it is from the t-distribution 5STA 291 Fall 2009 Lecture 20
An assumption for the t-test is that the population distribution is normal ◦ In practice, it is impossible to be 100% sure if the population distribution is normal It may be useful to look at histogram or stem-and-leaf plot (or normal probability plot) to check whether the normality assumption is reasonable Good news ◦ t-test is relatively robust against violations of this assumption Unless the population distribution is highly skewed, the hypotheses tests and confidence intervals are valid However, the random sampling assumption must never be violated, otherwise the test results are completely invalid 6STA 291 Fall 2009 Lecture 20
A courier service advertises that its average delivery time is less than 6 hours for local deliveries. A random sample of times for 12 deliveries found a mean of and a standard deviation of Is this sufficient evidence to support the courier’s advertisement at α=.05? State and test the hypotheses using the rejection region method What would be the p-value if we used that method? STA 291 Fall 2009 Lecture 207
Thirty-second commercials cost $2.3 million during the 2001 Super Bowl. A random sample of 116 people who watched the game were asked how many commercials they watches in their entirety. The sample had a mean of and a standard deviation of Can we conclude that the mean number of commercials watched is greater than 15? State the hypotheses, find the test statistic and p-value for testing whether or not the mean has changed, interpret ◦ Make a decision, using a significance level of 5% 8STA 291 Fall 2009 Lecture 20
Similar to testing one proportion Hypotheses are set up like two sample mean test ◦ H 0 :p 1 =p 2 Same as H 0 :p 1 -p 2 =0 Test Statistic 9STA 291 Fall 2009 Lecture 20
Government agencies have undertaken surveys of Americans 12 years of age and older. Each was asked whether he or she used drugs at least once in the past month. The results of this year’s survey had 171 yes responses out of 306 surveyed while the survey 10 years ago resulted in 158 yes responses out of 304 surveyed. Test whether the use of drugs in the past ten years has increased. State and test the hypotheses using the rejection region method at the 5% level of significance. STA 291 Fall 2009 Lecture 2010