Answer:
The appropriate hypothesis for the test model are as follows:
Null hypothesis:
[tex]H_o = The \ tutoring \ has \ no \ effect \ on \ the \ math \ scores[/tex]
Alternative Hypothesis :
[tex]H_a : The \ tutoring \ has \ an \ effect \ on \ the \ math \ scores[/tex]
The mean of the difference = -5.2
The standard deviation of the difference = 5.45
The value of the test statistic t is = -2.13
Step-by-step explanation:
The appropriate hypothesis for the test model are as follows:
Null hypothesis:
[tex]H_o = The \ tutoring \ has \ no \ effect \ on \ the \ math \ scores[/tex]
Alternative Hypothesis :
[tex]H_a : The \ tutoring \ has \ an \ effect \ on \ the \ math \ scores[/tex]
We use MINITAB to obtain the p-value as follows:
Step 1 : Choose Stat>Basic Statistics> Paired t
Step 2 : Choose Samples in columns.
Step 3 : In First sample , enter column as Before
Step 4 : In Second sample, enter the column as After
MINITAB output:
Paired T-Test and CI : Before , After
Paired T for Before - After
N Mean StDev SE Mean
Before 5 71.2000 4.8166 2.1541
After 5 76.4000 8.0498 3.6000
Difference 5 -5.20000 5.44977 2.43721
99% CI for mean difference : (-16.42115, 6.02115)
T-Test of mean difference = 0 (vs not = 0)
T-value = -2.13
P-Value = 0.100
However, from the MINITAB output ; it is obvious that the mean and the standard deviation of the difference are -5.2 and 5.45.
Therefore, the mean of the difference = -5.2
The standard deviation of the difference = 5.45
Also, we can see that the T-value = -2.13 ;
Thus, the value of the test statistic t is = -2.13
