Work Solutions….
Part A
Some questions in Part A require that you access data from Statistics for People Who (Think They) Hate Statistics. This data is available on the student website under the Student Text Resources link.
1. Using the data in the file named Ch. 11 Data Set 2, test the research hypothesis at the .05 level of significance that boys raise their hands in class more often than girls. Do this practice problem by hand using a calculator. What is your conclusion regarding the research hypothesis? Remember to first decide whether this is a one or twotailed test.
2. Using the same data set (Ch. 11 Data Set 2), test the research hypothesis at the .01 level of significance that there is a difference between boys and girls in the number of times they raise their hands in class. Do this practice problem by hand using a calculator. What is your conclusion regarding the research hypothesis? You used the same data for this problem as for Question 1, but you have a different hypothesis (one is directional and the other is nondirectional). How do the results differ and why?
3. Practice the following problems by hand just to see if you can get the numbers right. Using the following information, calculate the t test statistic.
a.
b.
c.
4. Using the results you got from Question 3 and a level of significance at .05, what are the twotailed critical values associated with each? Would the null hypothesis be rejected?
5. Using the data in the file named Ch. 11 Data Set 3, test the null hypothesis that urban and rural residents both have the same attitude toward gun control. Use IBM^{®} SPSS^{® }software to complete the analysis for this problem.
6. A public health researcher tested the hypothesis that providing new car buyers with child safety seats will also act as an incentive for parents to take other measures to protect their children (such as driving more safely, childproofing the home, and so on). Dr. L counted all the occurrences of safe behaviors in the cars and homes of the parents who accepted the seats versus those who did not. The findings: a significant difference at the .013 level. Another researcher did exactly the same study; everything was the same—same type of sample, same outcome measures, same car seats, and so on. Dr. R’s results were marginally significant (recall Ch. 9) at the .051 level. Which result do you trust more and why?
7. In the following examples, indicate whether you would perform a t test of independent means or dependent means.
a. Two groups were exposed to different treatment levels for ankle sprains. Which treatment was most effective?
b. A researcher in nursing wanted to know if the recovery of patients was quicker when some received additional inhome care whereas when others received the standard amount.
c. A group of adolescent boys was offered interpersonal skills counseling and then tested in September and May to see if there was any impact on family harmony.
d. One group of adult men was given instructions in reducing their high blood pressure whereas another was not given any instructions.
e. One group of men was provided access to an exercise program and tested two times over a 6month period for heart health.
8. For Ch. 12 Data Set 3, compute the t value and write a conclusion on whether there is a difference in satisfaction level in a group of families’ use of service centers following a social service intervention on a scale from 1 to 15. Do this exercise using IBM^{® }SPSS^{® }software, and report the exact probability of the outcome.
9. Do this exercise by hand. A famous brandname manufacturer wants to know whether people prefer Nibbles or Wribbles. They sample each type of cracker and indicate their like or dislike on a scale from 1 to 10. Which do they like the most?
Nibbles rating 
Wribbles rating 
9 
4 
3 
7 
1 
6 
6 
8 
5 
7 
7 
7 
8 
8 
3 
6 
10 
7 
3 
8 
5 
9 
2 
8 
9 
7 
6 
3 
2 
6 
5 
7 
8 
6 
1 
5 
6 
5 
3 
6 
10. Using the following table, provide three examples of a simple oneway ANOVA, two examples of a twofactor ANOVA, and one example of a threefactor ANOVA. Complete the table for the missing examples. Identify the grouping and the test variable.
Design 
Grouping variable(s) 
Test variable 
Simple ANOVA 
Four levels of hours of training—2, 4, 6, and 8 hours 
Typing accuracy 

Enter Your Example Here 
Enter Your Example Here 

Enter Your Example Here 
Enter Your Example Here 

Enter Your Example Here 
Enter Your Example Here 
Twofactor ANOVA 
Two levels of training and gender (twoway design) 
Typing accuracy 

Enter Your Example Here 
Enter Your Example Here 

Enter Your Example Here 
Enter Your Example Here 
Threefactor ANOVA 
Two levels of training, two of gender, and three of income 
Voting attitudes 

Enter Your Example Here 
Enter Your Example Here 
11. Using the data in Ch. 13 Data Set 2 and the IBM^{® }SPSS^{® }software, compute the F ratio for a comparison between the three levels representing the average amount of time that swimmers practice weekly (< 15, 15–25, and > 25 hours) with the outcome variable being their time for the 100yard freestyle. Does practice time make a difference? Use the Options feature to obtain the means for the groups.
12. When would you use a factorial ANOVA rather than a simple ANOVA to test the significance of the difference between the averages of two or more groups?
13. Create a drawing or plan for a 2 × 3 experimental design that would lend itself to a factorial ANOVA. Identify the independent and dependent variables.
From Salkind (2011). Copyright © 2012 SAGE. All Rights Reserved. Adapted with permission.
Part B
Some questions in Part B require that you access data from Using SPSS for Windows and Macintosh. This data is available on the student website under the Student Text Resources link.
The data for Exercise 14 is in thedata file named Lesson 22 Exercise File 1.
14. John is interested in determining if a new teaching method, the involvement technique, is effective in teaching algebra to first graders. John randomly samples six first graders from all first graders within the Lawrence City School System and individually teaches them algebra with the new method. Next, the pupils complete an eightitem algebra test. Each item describes a problem and presents four possible answers to the problem. The scores on each item are 1 or 0, where 1 indicates a correct response and 0 indicates a wrong response. The IBM^{® }SPSS^{®} data file contains six cases, each with eight item scores for the algebra test.
Conduct a onesample t test on the total scores. On the output, identify the following: