Respuesta :
Answer:
n=6
"=T.INV(1-0.025,5)", and we got the critical values given by: [tex]t_{critical}=\pm 2.5706[/tex]
n=12
"=T.INV(1-0.025,11)", and we got the critical values given by: [tex]t_{critical}=\pm 2.201[/tex]
Step-by-step explanation:
Previous concepts
The t distribution (Student’s t-distribution) is a "probability distribution that is used to estimate population parameters when the sample size is small (n<30) or when the population variance is unknown".
The shape of the t distribution is determined by its degrees of freedom and when the degrees of freedom increase the t distirbution becomes a normal distribution approximately.
The degrees of freedom represent "the number of independent observations in a set of data. For example if we estimate a mean score from a single sample, the number of independent observations would be equal to the sample size minus one."
Solution to the problem
For n=6
In order to find the critical value we need to take in count that we are conducting a two tailed test, so we are looking on the t distribution with df=n-1=6-1=5 degrees of freedom, a value that accumulates [tex]0.05/2=0.025[/tex] of the area on each tail. We can use excel or a table to find it, for example the code in Excel is:
"=T.INV(1-0.025,5)", and we got the critical values given by: [tex]t_{critical}=\pm 2.5706[/tex]
For n=12
In order to find the critical value we need to take in count that we are conducting a two tailed test, so we are looking on the t distribution with df=n-1=12-1=11 degrees of freedom, a value that accumulates [tex]0.05/2=0.025[/tex] of the area on each tail. We can use excel or a table to find it, for example the code in Excel is:
"=T.INV(1-0.025,11)", and we got the critical values given by: [tex]t_{critical}=\pm 2.201[/tex]
