Researchers conducted a study to determine whether magnets are effective in treating back pain. The results are shown in the table for the treatment​ (with magnets) group and the sham​ (or placebo) group. The results are a measure of reduction in back pain. Assume that the two samples are independent simple random samples selected from normally distributed​ populations, and do not assume that the population standard deviations are equal. Complete parts​ (a) and​ (b) below.			Treatment	Sham
μ	μ1	μ2
n	13	13
x	0.48	0.41
s	0.76	1.42

a.  Use a

0.05

significance level to test the claim that those treated with magnets have a greater mean reduction in pain than those given a sham treatment.

 

What are the null and alternative​ hypotheses?

 

 

A.

H0​:

μ1=μ2

H1​:

μ1>μ2

 

B.

H0​:

μ1<μ2

H1​:

μ1≥μ2

 

C.

H0​:

μ1=μ2

H1​:

μ1≠μ2

 

D.

H0​:

μ1≠μ2

H1​:

μ1<μ2

The test​ statistic, t, is

nothing.

​(Round to two decimal places as​ needed.)

The​ P-value is

nothing.

​(Round to three decimal places as​ needed.)

State the conclusion for the test.

 

▼

 

Reject

Fail to reject

the null hypothesis. There

▼

 

is not

is

sufficient evidence to support the claim that those treated with magnets have a greater mean reduction in pain than those given a sham treatment.

Is it valid to argue that magnets might appear to be effective if the sample sizes are​ larger?

 

Since the

▼

 

sample mean

sample standard deviation

for those treated with magnets is

▼

 

less than

equal to

greater than

the sample mean for those given a sham​ treatment, it

▼

 

is not

is

valid to argue that magnets might appear to be effective if the sample sizes are larger.

b. Construct a confidence interval suitable for testing the claim that those treated with magnets have a greater mean reduction in pain than those given a sham treatment.

 

nothing<μ1−μ2<nothing

​(Round to three decimal places as​ needed.)