Example 10.7 The parametric function for comparing the first two (store) brands of oil filter with

  the last three (national) brands is u5 1 2 (m 1m )2 1 1 2 3 (m 3 1m 4 1m 5 ) , from

  which

  2 1 2 1 2 1 2 1 2 1 g 2 c

  i 5 a b 1 a 1 1 1 2 5 2 b a2 3 b a2 3 b a2 3 b 6

  10.2 Multiple Comparisons in ANOVA

  With u5 ˆ 1 2 (x 1 .1x .) 2 1 2 3 (x 3 .1x 4 .1x 5 .) 5 .583 and MSE 5 .088 , a 95

  interval is

  ■ Sometimes an experiment is carried out to compare each of several “new”

  treatments to a control treatment. In such situations, a multiple comparisons tech- nique called Dunnett’s method is appropriate.

  EXERCISES Section 10.2 (11–21)

  11. An experiment to compare the spreading rates of five dif-

  Tukey’s pairwise comparisons

  ferent brands of yellow interior latex paint available in a

  Family error rate 5 0.0500

  particular area used 4 gallons (J 5 4) of each paint. The

  Individual error rate 5 0.00693

  sample average spreading rates (ft 2 gal) for the five brands

  Critical value 5 4.10

  were , x 1 5 462.0, x 2 5 512.8, x 3 5 437.5, x 4 5 469.3

  and x 5 532.1

  5 . The computed value of F was found to be

  Intervals for (column level mean) – (row level

  significant at level mean) a 5 .05 . With MSE 5 272.8 , use

  Tukey’s procedure to investigate significant differences in

  the true average spreading rates between brands.

  12. In Exercise 11, suppose x 3 . 5 427.5 . Now which true aver-

  age spreading rates differ significantly from one another?

  Be sure to use the method of underscoring to illustrate your

  conclusions, and write a paragraph summarizing your

  2 53.8 2 18.9 2 11.8 13. Repeat Exercise 12 supposing that 20.4 x

  2 . 5 502.8 in addition

  to . x 3 . 5 427.5

  a. Is it plausible that the variances of the five axial stiffness

  14. Use Tukey’s procedure on the data in Example 10.3 to iden-

  index distributions are identical? Explain.

  tify differences in true average bond strengths among the

  b. Use the output (without reference to our F table) to test

  five protocols.

  the relevant hypotheses.

  c. Use the Tukey intervals given in the output to determine

  15. Exercise 10.7 described an experiment in which 26 resistiv-

  which means differ, and construct the corresponding

  ity observations were made on each of six different concrete

  underscoring pattern.

  mixtures. The article cited there gave the following sample means: 14.18, 17.94, 18.00, 18.00, 25.74, 27.67. Apply

  17. Refer to Exercise 5. Compute a 95 t CI for u5

  Tukey’s method with a simultaneous confidence level of

  2 (m 1 1m 2 )2m 3 .

  95 to identify significant differences, and describe your

  18. Consider the accompanying data on plant growth after the

  findings (use MSE 5 13.929 ).

  application of five different types of growth hormone.

  16. Reconsider the axial stiffness data given in Exercise 8. ANOVA output from Minitab follows:

  Analysis of Variance for Stiffness

  a. Perform an F test at level

  b. What happens when Tukey’s procedure is applied?

  19. Consider a single-factor ANOVA experiment in which

  28.57 I53 , J 5 5, x 1 5 10, x 2 5 12 , and x 3 5 20 . Find a value

  20.83 of SSE for which f.F .05,2,12 , so that H 0 :m 1 5m 2 5m 3 is

  44.51 rejected, yet when Tukey’s procedure is applied none

  26.00 of the m i ’s can be said to differ significantly from one Pooled StDev 5 32.39 another.

  CHAPTER 10 The Analysis of Variance

  20. Refer to Exercise 19 and suppose x 1 5 10, x 2 5 15 , and

  a. Test the null hypothesis that true average survival time

  x 3 . 5 20 . Can you now find a value of SSE that produces such

  does not depend on an injection regimen against the

  a contradiction between the F test and Tukey’s procedure?

  alternative that there is some dependence on an injection

  21. The article “The Effect of Enzyme Inducing Agents on the

  regimen using a 5 .01 .

  Survival Times of Rats Exposed to Lethal Levels of Nitrogen

  b. Suppose that 100(1 2 a) CIs for k different paramet-

  Dioxide” (Toxicology and Applied Pharmacology, 1978:

  ric functions are computed from the same ANOVA data

  169–174) reports the following data on survival times for rats

  set. Then it is easily verified that the simultaneous confi-

  exposed to nitrogen dioxide (70 ppm) via different injection

  dence level is at least 100(1 2 ka) . Compute CIs with a

  regimens. There were J 5 14 rats in each group.

  simultaneous confidence level of at least 98 for

  x (min)

  6. p-Aminobenzoic Acid