SOLUTION: Please assist with decision rule
Given the following hypotheses:
H0 : μ ≤ 10
H1 : μ > 10
A random sample of 10 observations is selected from a normal po
Algebra.Com
Question 1039454: Please assist with decision rule
Given the following hypotheses:
H0 : μ ≤ 10
H1 : μ > 10
A random sample of 10 observations is selected from a normal population. The sample mean was 12 and the sample standard deviation 3. Using the .05 significance level:
a. State the decision rule. (Round your answer to 3 decimal places.)
Reject H0 if t > ____?
Answer by stanbon(75887) (Show Source): You can put this solution on YOUR website!
H0 : μ ≤ 10
H1 : μ > 10
A random sample of 10 observations is selected from a normal population. The sample mean was 12 and the sample standard deviation 3. Using the .05 significance level:
a. State the decision rule. (Round your answer to 3 decimal places.)
The decision rule depends on the value of alpha (the significance level).
Find the value of "t" with a left tail of 0.95 and df = 9
--------------------------------------
invT(0.95,9) = 1.833
---------------------------
Reject H0 if t > 1.833 ?
-----------
Cheers,
Stan H.
-------------
RELATED QUESTIONS
Given the following hypotheses:
H0 : μ ≤ 10
H1 : μ > 10
A random (answered by Boreal)
Help Please !
A sample of 30 observations is selected from a normal population. The... (answered by Boreal)
Given the following hypotheses:
H0 : μ = 400
H1 : μ ≠ 400
A... (answered by robertb)
Dr Carl is a mathematics and statistics lecturer. He is interested in studying a new... (answered by stanbon)
Need help finding p-value, thank you! I can't seem to get it right!
Let x be a random... (answered by stanbon)
Given the following hypotheses:
H0 : μ = 400
H1 : μ ≠... (answered by MathTherapy)
A climate researcher knows that it has previously been the case that the mean temperature (answered by stanbon)
Assume that IQ score for a certain population are approximately N (μ, 100). To test... (answered by stanbon)
The following information is available.
H0: μ ≤ 25
H1: μ > 25
The... (answered by ewatrrr)