Question

In: Statistics and Probability

For the following, A = attractiveness and B=time; same levels. Conduct a two-factor fixed effects ANOVA...

For the following, A = attractiveness and B=time; same levels. Conduct a two-factor fixed effects ANOVA (alpha=.05).

A₁B₁: 10, 8, 7, 3

A₁ B₂: 15, 12, 21, 13

A₂ B₁: 13, 9, 18, 12

A₂B₂: 20, 22, 24, 25

A₃ B₁: 24, 29, 27, 25

A₃ B₂: 10, 12, 21, 14

A₄ B₁: 30, 26, 29, 28

A₄ B₂: 22, 20, 25, 15

Solutions

Expert Solution

Answer For the Fixed Effects Model of the above problem

Factors are

1 . Attracttiveness A: 4 levels(a) - A1, A2, A3 and A4

2. Time B 2 levels (b) B1 and   B2  

There are 4 replications(n) .

Hence for Anova Effect and no of degrees of freed om will be

Effect Degrees of Freedom

A a-1= 4-1 = 3

B b-1= 2-1 =1

AB interaction (a-1)*(b-1)= 3*1 = 3

Error a*b*(n-1)= 4*2*(4-1)=24

Total 4*2*4-1 =31

ANOVA table can be derived using Minitab based on the data /or manually calculated (lengthy)

in mintab use following steps to get the ANOVA results

1. put data as per following format in worksheet.

2.choose   Stat > ANOVA > Two-Way.

3. Select Response as Response ,Row Factor as "Attractiveness and Column Factor as "Time"

Check confidence level at 95%, Click OK . you will get ANOVA on session window output. The same is given below

Two-way ANOVA: Response versus Attractiveness, Time

Source DF SS MS F P
Attractiveness 3 738.59 246.198 21.35 0.000
Time 1 1.53 1.531 0.13 0.719
Interaction 3 732.84 244.281 21.18 0.000
Error 24 276.75 11.531
Total 31 1749.72

S = 3.396 R-Sq = 84.18% R-Sq(adj) = 79.57%

The above Table is the ANOVA table ,

As p value is lower for Attractiveness and Interaction it can be said that there is significant effect for attractiveness and intercation of attractivess and time interaction. and effect of time is not significant.


Datasheet ----------------------

Attractveness   Time   Response
A1 B1   10
A1   B1   8
A1   B1   7
A1   B1   3
A1   B2   15
A1   B2   12
A1   B2   21
A1   B2   13
A2   B1   13
A2   B1   9
A2   B1   18
A2   B1   12
A2   B2   20
A2   B2   22
A2   B2   24
A2   B2   25
A3   B1   24
A3   B1   29
A3   B1   27
A3   B1   25
A3   B2   10
A3   B2   12
A3   B2   21
A3   B2   14
A4   B1   30
A4   B1   26
A4   B1   29
A4   B1   28
A4   B2   22
A4   B2   20
A4   B2   25
A4   B2   15

orchestra answered 2 years ago
Next > < Previous

Related Solutions

For the following, A = attractiveness and B=time; same levels. Conduct a two-factor fixed effects ANOVA...
For the following, A = attractiveness and B=time; same levels. Conduct a two-factor fixed effects ANOVA (alpha=.05). A₁B₁: 10, 8, 7, 3 A₁ B₂: 15, 12, 21, 13 A₂ B₁: 13, 9, 18, 12 A₂B₂: 20, 22, 24, 25 A₃ B₁: 24, 29, 27, 25 A₃ B₂: 10, 12, 21, 14 A₄ B₁: 30, 26, 29, 28 A₄ B₂: 22, 20, 25, 15
Complete the following ANOVA summary table for a two-factor fixed-effects ANOVA, where there are five levels...
Complete the following ANOVA summary table for a two-factor fixed-effects ANOVA, where there are five levels of factor A (school) and four levels of factor B (curriculum design). Each cell includes 13 students. Source SS Df Ms F P a 4490.3 2.581 .038 b 2963 2.27 .081 Axb 8611.8 1.65 .079 Error Total 120465.1                                                            
Conduct a two-factor fixed-effects ANOVA to determine if there are any effects due to A (task...
Conduct a two-factor fixed-effects ANOVA to determine if there are any effects due to A (task type), B (task difficulty), or the AB interaction (alpha = .01). Conduct Tukey HSD post-hoc comparison. The following are the scores from the individual cells of the model: A₁B₁: 41, 39, 25, 25, 37, 51, 39, 101 A₁ B₂: 46, 54, 97, 93, 51, 36, 29, 69 A₁ B₃: 113, 135, 109, 96, 47, 49, 68, 38 A₂ B₁: 86, 38, 45, 45, 60,...
A factorial experiment involving two levels of factor A and three levels of factor B resulted...
A factorial experiment involving two levels of factor A and three levels of factor B resulted in the following data. Factor B Level 1 Level 2 Level 3 Factor A Level 1 135 89 76 165 65 94 Level 2 125 128 119 95 106 135 Test for any significant main effects and any interaction. Use α = 0.05. Find the value of the test statistic for factor A. (Round your answer to two decimal places.) Find the p-value for...
A factorial experiment involving two levels of factor A and three levels of factor B resulted...
A factorial experiment involving two levels of factor A and three levels of factor B resulted in the following data. Factor B Level 1 Level 2 Level 3 Factor A Level 1 135 93 72 165 69 90 Level 2 125 124 123 95 102 139 Test for any significant main effects and any interaction. Use α = 0.05. Find the value of the test statistic for factor A. (Round your answer to two decimal places.) Find the p-value for...
Consider the following partially completed two-way ANOVA table. Suppose there are 4 levels of Factor A...
Consider the following partially completed two-way ANOVA table. Suppose there are 4 levels of Factor A and 2 levels of Factor B. The number of replications per cell is 4. Use the 0.01 significance level. (Hint: estimate the values from the F table.) Complete an ANOVA table. (Round MS and F to 2 decimal places.) Sources: Factor A, Factor B, Interaction, Error, total. SS: 70, 50, 210, 400, 730 Find the critical values to test for equal means. (Round your...
Consider the following partially completed two-way ANOVA table. Suppose there are 2 levels of Factor A...
Consider the following partially completed two-way ANOVA table. Suppose there are 2 levels of Factor A and 3 levels of Factor B. The number of replications per cell is 3. Use the 0.01 significance level. (Hint: estimate the values from the F table.) Complete an ANOVA table. (Round MS and F to 2 decimal places.) SS df MS F Factor A 100 Factor B 30 Interaction 250 Error 200 Total 580 Find the critical values to test for equal means....
Consider the following partially completed two-way ANOVA table. Suppose there are four levels of Factor A...
Consider the following partially completed two-way ANOVA table. Suppose there are four levels of Factor A and three levels of Factor B. The number of replications per cell is 5. Use the 0.05significance level. (HINT: estimate the values from the F table) A) Complete the ANOVA Table (Round MS to 1 decimal point, Round the other values to the nearest whole number.) Source SS dF MS F Factor A 75 Factor B 25 Interaction 300 Error 600 Total 1000 b)...
Solve as an anova two-way model (the second factor is in the rows and has levels...
Solve as an anova two-way model (the second factor is in the rows and has levels A and B)) The null hypothesES are: H0: μa = μb = μc (all Factor means for the column-wise factor are equal) H0: μAmy = μBert (all Factor means for the row-wise factor are equal) H0: the column-wise Factor and the row-wise Factor do not interact Can we reject them at the alpha = 0.05 level? Use the Excel data below: A B C...
A between-subjects factorial design has two levels of factor A and 2 levels of Factor B....
A between-subjects factorial design has two levels of factor A and 2 levels of Factor B. Each cell of the design contains n=8 participants. The sums of squares are shown in the table. The alpha level for the experiment is 0.05. Use the provided information and partially completed table to provide the requested values. Source SS df MS F p n2p Fcrit A 12 B 3 AxB 21 Within 84 Total 120 Specifically looking for the df total and F...
ADVERTISEMENT
Subjects
ADVERTISEMENT
Latest Questions
ADVERTISEMENT