A two-way analysis of variance experiment with no interaction is conducted. Factor A has three levels...

A two-way analysis of variance experiment with no interaction is conducted. Factor A has three levels...

A two-way analysis of variance experiment with no interaction is conducted. Factor A has three levels (columns) and Factor B has seven levels (rows). The results include the following sum of squares terms: SST = 346.9 SSA = 196.3 SSE = 79.0 a. Construct an ANOVA table. (Round intermediate calculations to at least 4 decimal places. Round "SS" to 2 decimal places, "MS" to 4 decimal places, "F" to 3 decimal places.) Source SS df MS F p-value Rows Columns...

The following observations were obtained when conducting a two-way ANOVA experiment with no interaction. Click here...

The following observations were obtained when conducting a two-way ANOVA experiment with no interaction. Click here for the Excel Data File Factor A Factor B 1 2 3 4   X¯¯¯jX¯j for Factor B 1 3 4 3 5 3.750 2 8 10 9 8 8.750 3 12 16 14 13 13.750 X−iX−i for Factor A 7.667 10.000 8.667 8.667 X¯¯¯¯¯¯¯ = 8.7500X¯¯⁢ = 8.7500 a. Calculate SST, SSA, SSB, and SSE. (Round intermediate calculations to at least 4 decimal places....

The following observations were obtained when conducting a two-way ANOVA experiment with no interaction Click here...

The following observations were obtained when conducting a two-way ANOVA experiment with no interaction Click here for the Excel Data File Factor A Factor B 1 2 3 4   X⎯⎯⎯jX¯j for Factor B 1 5 2 2 1 2.500 2 9 6 9 8 8.000 3 15 11 13 16 13.750 X−iX−i for Factor A 9.667 6.000 8.000 8.333 X⎯⎯⎯⎯⎯⎯=8.083X¯¯⁢ = 8.083 a. Calculate SST, SSA, SSB, and SSE. (Round intermediate calculations to at least 4 decimal places. Round your...

The calculations for a factorial experiment involving four levels of factor A, three levels of factor...

The calculations for a factorial experiment involving four levels of factor A, three levels of factor B, and three replications resulted in the following data: SST = 291, SSA = 20, SSB = 24, SSAB = 195. Set up the ANOVA table and test for significance using  = .05. Show entries to 2 decimals, if necessary. Round p-value to four decimal places. If your answer is zero enter "0". Source of Variation Sum of Squares Degrees of Freedom Mean Square F...

The calculations for a factorial experiment involving four levels of factor A, three levels of factor...

The calculations for a factorial experiment involving four levels of factor A, three levels of factor B, and three replications resulted in the following data: SST = 282, SSA = 28,SSB = 23, SSAB = 173. Set up the ANOVA table. (Round your values for mean squares and F to two decimal places, and your p-values to three decimal places.) Source of Variation Sum of Squares Degrees of Freedom Mean Square F p-value Factor A ? ? ? ? ?...

The calculations for a factorial experiment involving four levels of factor A, three levels of factor...

The calculations for a factorial experiment involving four levels of factor A, three levels of factor B, and three replications resulted in the following data: SST = 284, SSA = 29, SSB = 24, SSAB = 176. Set up the ANOVA table. (Round your values for mean squares and F to two decimal places, and your p-values to three decimal places.) Source of Variation Sum of Squares Degrees of Freedom Mean Square F p-value Factor A Factor B Interaction Error...

Consider a​ two-way ANOVA with two levels for factor​ A, four levels for factor​ B, and...

Consider a​ two-way ANOVA with two levels for factor​ A, four levels for factor​ B, and four replicates in each of the 88 ​cells, with SSA=25, SSB=30, SSE=120, and SST=280. Complete parts​ (a) through​ (d). a) Form the ANOVA summary table and fill in all values in the body of the table. b) At the 0.01 level of​ significance, is there an effect due to factor​ A? c) At the 0.01 level of​ significance, is there an effect due to...

The calculations for a factorial experiment involving four levels of factor A, three levels of factor...

The calculations for a factorial experiment involving four levels of factor A, three levels of factor B, and three replications resulted in the following data: SST= 248, SSA= 22, SSB= 21, SSAB= 155. Set up the ANOVA table and test for significance using alpha= .05 . Show entries to 2 decimals, if necessary. If the answer is zero enter “0”. Source of Variation Sum of Squares Degrees of Freedom Mean Square F p-value Factor A Factor B Interaction Error Total

The following output summarizes a portion of the results for a two-way analysis of variance experiment...

The following output summarizes a portion of the results for a two-way analysis of variance experiment with no interaction. Factor A consists of four different kinds of organic fertilizers, factor B consists of three different kinds of soil acidity levels, and the variable measured is the height (in inches) of a plant at the end of four weeks. a. Find the missing values in the ANOVA table. (Carry at least four decimal places in all intermediate calculations. Do NOT use...

onsider the following partially completed two-way ANOVA table. Suppose there are 2 levels of Factor A...

onsider 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(SS) Factor B 30(SS) interaction 250(SS) Error 200(SS) Total 580(SS) Find the critical values to test for equal means....