Question 1
Suppose a study reports that the average price for a gallon of self-serve regular unleaded gasoline is $3.16. You believe that the ?gure is higher in your area of the country. You decide to test this claim for your part of the United States by randomly calling gasoline stations. Your random survey of 25 stations produces the following prices (all in dollars). Assume gasoline prices for a region are normally distributed.
Did the data you obtained provide enough evidence to reject the claim? Use a 1% level of signi?cance.
Make sure you clearly state both the null and the alternative hypotheses in full sentences. Following your calculations, clearly state the conclusion in the same manner (do not simply say "accept/reject null") and explain how you arrived at this conclusion (based on which metrics).
3.27
|
3.3
|
3.16
|
3.15
|
3.11
|
3.05
|
3.54
|
3.25
|
3.05
|
3.11
|
3.13
|
3.15
|
3.27
|
3.14
|
3.14
|
3.2
|
3.3
|
3.09
|
3.05
|
3.07
|
3.37
|
3.34
|
3.35
|
3.35
|
3.1
|
Question 2
Where do CFOs get their money news? According to Robert Half International, 47% get their money news from newspapers, 15% get it from communication/colleagues, 12% get it from television, 11% from the Internet, 9% from magazines, 5% from radio, and 1% do not know. Suppose a researcher wants to test these results. She randomly samples 76 CFOs and ?nds that 40 of them get their money news from newspapers. Does the test show enough evidence to reject the ?ndings of Robert Half International? Use a = .05.
Make sure you clearly state both the null and the alternative hypotheses in full sentences. Following your calculations, clearly state the conclusion in the same manner (do not simply say "accept/reject null") and explain how you arrived at this conclusion (based on which metrics).
Men
|
Women
|
107.48
|
125.98
|
143.61
|
59.32
|
90.19
|
96.35
|
125.53
|
80.62
|
70.79
|
77.6
|
83
|
84.34
|
129.63
|
75.21
|
154.22
|
68.48
|
93.8
|
65.84
|
111.25
|
126.11
|
78.6
|
82.54
|
89.35
|
123.5
|
Question 3
To answer this question, use the Data Analysis Toolpack in Excel and select "t-Test: Two-Sample Assuming Equal Variances" from the list of available tools. Conduct a hypothesis test using this tool. Explain your answer (how you decided if men spend more or not) and include the output table.
Some studies have shown that in the United States, men spend more than women buying gifts and cards on Valentine's Day. Suppose a researcher wants to test this hypothesis by randomly sampling men and women with comparable demographic characteristics from various large cities across the United States to be in a study. Each study participant is asked to keep a log beginning 1 month before Valentine's Day and record all purchases made for Valentine's Day during that 1-month period. The resulting data are shown below. Use these data and a 1% level of signi?cance to test to determine if, on average, men actually do spend signi?cantly more than women on Valentine's Day. Assume that such spending is normally distributed in the population and that the population variances are equal.
Make sure you clearly state both the null and the alternative hypotheses in full sentences. Include the output table; then, clearly state the conclusion in the same manner (do not simply say "accept/reject null") and explain how you arrived at this conclusion (based on which metrics).
Men
|
Women
|
107.48
|
125.98
|
143.61
|
59.32
|
90.19
|
96.35
|
125.53
|
80.62
|
70.79
|
77.6
|
83
|
84.34
|
129.63
|
75.21
|
154.22
|
68.48
|
93.8
|
65.84
|
111.25
|
126.11
|
78.6
|
82.54
|
89.35
|
123.5
|
Attachment:- Assignmenttemplate.rar