I HAVE THE GRAND MEAN ALREADY NEED REST OF THE PROBLEMS SOLVED. ANOVA. Dr. Milgram is conducting a patient satisfaction survey, rating how well her patients like her on a scale of 1-10. Her patients tend to fall into three categories: “Like a lot”, “like somewhat”, and “dislike a lot”. She believes that she might get different satisfaction scores from people in each group, but (because she's not great at numbers) she wants you to do an ANOVA to be sure. She has collected data from 12 patients (three equal groups) with the following results.     Group 1) “Like a lot”               Mean:   8                    SS: 2   N:                      df:            Group 2) “Like somewhat”     Mean:   5                    SS: 6   N:                      df:             Group 3) “Dislike a lot”         Mean:    2                   SS: 4   N:                      df:              Grand Mean:     4     df Within-Group:__________ df Between-Groups:___________   Estimated Variance (S21) for Group 1: _______ Estimated Variance (S22) for Group 2: ___________ Estimated Variance (S23) for Group 3: ___________ Within-Group Estimated Variance (S2Within): ___________   Between-Group Sum of Squared Deviations: ___________ Comparison Distribution Estimated Variance (S2M): ___________ Between-Group Estimated Variance (S2Between): _________   Number of Groups:________ Number of Subjects per group: __________ Total Number of Subjects: __________   F-ratio: __________   Cut-off Score (use p<.05): ________   Final Decision: Reject the Null Hypothesis or Fail to Reject the Null Hypothesis? What does this mean for our hypotheses?

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I HAVE THE GRAND MEAN ALREADY NEED REST OF THE PROBLEMS SOLVED.

ANOVA. Dr. Milgram is conducting a patient satisfaction survey, rating how well her patients like her on a scale of 1-10. Her patients tend to fall into three categories: “Like a lot”, “like somewhat”, and “dislike a lot”. She believes that she might get different satisfaction scores from people in each group, but (because she's not great at numbers) she wants you to do an ANOVA to be sure. She has collected data from 12 patients (three equal groups) with the following results.

 

 

Group 1) “Like a lot”               Mean:   8                    SS: 2   N:                      df:           

Group 2) “Like somewhat”     Mean:   5                    SS: 6   N:                      df:            

Group 3) “Dislike a lot”         Mean:    2                   SS: 4   N:                      df:           

 

Grand Mean:     4  

 

df Within-Group:__________

df Between-Groups:___________

 

Estimated Variance (S21) for Group 1: _______

Estimated Variance (S22) for Group 2: ___________

Estimated Variance (S23) for Group 3: ___________

Within-Group Estimated Variance (S2Within): ___________

 

Between-Group Sum of Squared Deviations: ___________

Comparison Distribution Estimated Variance (S2M): ___________

Between-Group Estimated Variance (S2Between): _________

 

Number of Groups:________

Number of Subjects per group: __________

Total Number of Subjects: __________

 

F-ratio: __________

 

Cut-off Score (use p<.05): ________

 

Final Decision: Reject the Null Hypothesis or Fail to Reject the Null Hypothesis? What does this mean for our hypotheses?

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Hey, since there are multiple subparts posted, we will answer first three subparts. If you want any specific subpart to be answered then please submit that subpart only or specify the subpart in your message.

Here, N=12 and k=3

  • df Within-Group is calculated as follows:

dfwithin=N-k=12-3=9

Thus, df Within-Group is 9

  • df Between-Groups is calculated as below:

dfBetween=k-1=3-1=2

Thus, df Between-Groups is 2

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