Question
In: Statistics and Probability
You wish to test the claim that the average IQ score is less than 100 at...
You wish to test the claim that the average IQ score is less than 100 at the .025 significance level. You determine the hypotheses are:
Ho: μ=100
H1:μ<100
You take a simple random sample of 60 individuals and find the mean IQ score is 95.7, with a standard deviation of 16. Let's consider testing this hypothesis two ways: once with assuming the population standard deviation is not known and once with assuming that it is known.
Round to three decimal places where appropriate.
| Assume Population Standard Deviation is NOT known | Assume Population Standard Deviation is 15 |
| Test Statistic: t = | Test Statistic: z = |
| Critical Value: t = | Critical Value: z = |
| p-value: | p-value: |
Conclusion About the Null:
|
Conclusion About the Null:
|
Conclusion About the Claim:
|
Conclusion About the Claim:
|
Is there a significant difference between when we know the population standard deviation and when we don't? Explain.
Please show how to solve with a TI-84 calculator. This is the only way I am able to work through the problem. Thank you.
Solutions
orchestra answered 3 years agoRelated Solutions
You wish to test the claim that the average IQ score is less than 100 at...
You wish to test the claim that the average IQ score is less
than 100 at the .05 significance level. You determine the
hypotheses are:
Ho: μ=100
H1:μ<100
You take a simple random sample of 38 individuals and find the
mean IQ score is 95.8, with a standard deviation of 15.2. Let's
consider testing this hypothesis two ways: once with assuming the
population standard deviation is not known and once with assuming
that it is known.
Round to three decimal...
You wish to test the claim that the average IQ score is less than 100 at...
You wish to test the claim that the average IQ score is less
than 100 at the .05 significance level. You determine the
hypotheses are:
Ho: μ=100
H1:μ<100
You take a simple random sample of 38 individuals and find the
mean IQ score is 95.8, with a standard deviation of 15.2. Let's
consider testing this hypothesis two ways: once with assuming the
population standard deviation is not known and once with assuming
that it is known.
Round to three decimal...
You wish to test the claim that the average IQ score is less than 100 at...
You wish to test the claim that the average IQ score is less
than 100 at the .01 significance level. You determine the
hypotheses are:
Ho: μ=100
H1:μ<100
You take a simple random sample of 79 individuals and find the
mean IQ score is 96.1, with a standard deviation of 14.8. Let's
consider testing this hypothesis two ways: once with assuming the
population standard deviation is not known and once with assuming
that it is known.
Round to three decimal...
You wish to test the claim that the average IQ score is less than 100 at...
You wish to test the claim that the average IQ score is less
than 100 at the .05 significance level. You determine the
hypotheses are:
Ho: μ=100Ho: μ=100
H1:μ<100H1:μ<100
You take a simple random sample of 48 individuals and find the
mean IQ score is 97.3, with a standard deviation of 14.6. Let's
consider testing this hypothesis two ways: once with assuming the
population standard deviation is not known and once with assuming
that it is known.
Round to three...
You wish to test the claim that the average IQ score is less than 100 at...
You wish to test the claim that the average IQ score is less
than 100 at the .025 significance level. You determine the
hypotheses are:
Ho: μ=100
H1:μ<100
You take a simple random sample of 96 individuals and find the
mean IQ score is 96.2, with a standard deviation of 15.7. Let's
consider testing this hypothesis two ways: once with assuming the
population standard deviation is not known and once with assuming
that it is known.
Round to three decimal...
You wish to test the claim that the average IQ score is less than 100 at...
You wish to test the claim that the average IQ score is less
than 100 at the .05 significance level. You determine the
hypotheses are: H o : μ = 100 H 1 : μ < 100 You take a simple
random sample of 38 individuals and find the mean IQ score is 98.8,
with a standard deviation of 15.9. Let's consider testing this
hypothesis two ways: once with assuming the population standard
deviation is not known and once with...
You wish to test the claim that the first population mean is less than the second...
You wish to test the claim that the first population mean is
less than the second population meanat a significance level of
α=0.001α=0.001.
Ho:μ1=μ2Ho:μ1=μ2
Ha:μ1<μ2Ha:μ1<μ2
You obtain the following two samples of data.
Sample #1
Sample #2
43.3
56.2
64.2
49.7
95.4
61.0
85.0
49.1
50.9
49.1
61.0
63.2
72.7
81.7
41.4
55.8
54.5
83.6
93.5
79.2
74.9
77.8
49.8
48.8
43.5
90.5
90.5
76.2
47.7
What is the test statistic for this sample?
test statistic = Round to 3...
You wish to test the claim that the first population mean is less than the second...
You wish to test the
claim that the first population mean is less than the second
population mean at a significance level of α=0.01α=0.01.
Ho:μ1=μ2Ho:μ1=μ2
Ha:μ1<μ2Ha:μ1<μ2
You obtain the
following two samples of data.
Sample #1
Sample #2
71.2
85.7
85.4
76.5
92.2
81.3
72.7
71.8
86.8
78.3
86.3
78.7
80.3
72.2
93.3
83.2
86.8
85.3
81.6
80.5
87.8
88.6
75.4
What is the test statistic for this sample?
test statistic = Round to 3 decimal places.
What is...
You wish to test the claim that the first population mean is less than the second...
You wish to test the claim that the first population mean is
less than the second population mean at a significance level of
α=0.001α=0.001.
Ho:μ1=μ2Ho:μ1=μ2
Ha:μ1<μ2Ha:μ1<μ2
You obtain the following two samples of data.
Sample #1
Sample #2
41.5
47.1
71.9
67.8
57.1
72.9
52.3
70.3
65.5
68.8
66.2
69.3
70.4
87.8
79.7
89.4
81.0
70.4
71.4
68.8
91.6
82.1
79.1
What is the test statistic for this sample?
test statistic = Round to 4 decimal places.
What is the...
You wish to test the claim that the first population mean is less than the second...
You wish to test the
claim that the first population mean is less than the second
population mean at a significance level of α=0.01α=0.01.
Ho:μ1=μ2Ho:μ1=μ2
Ha:μ1<μ2Ha:μ1<μ2
You obtain the
following two samples of data.
Sample
#1
Sample
#2
71.2
85.7
85.4
76.5
92.2
81.3
72.7
71.8
86.8
78.3
86.3
78.7
80.3
72.2
93.3
83.2
86.8
85.3
81.6
80.5
87.8
88.6
75.4
What is the test statistic for this sample?
test statistic = Round to 3 decimal places.
What is...
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