![Page 1: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/1.jpg)
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Testing Normal Distributions Example Sample Size Determination t-tests
Hypothesis Tests for Population Means
Bernd Schroder
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 2: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/2.jpg)
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Testing Normal Distributions Example Sample Size Determination t-tests
Introduction
1. Once the idea of hypothesis tests is understood, we want toset up standard procedures for frequently used tests.
2. The setup is always a test to reject a given null hypothesisH0 in favor of an alternative hypothesis Ha.
3. The probability α of a type I error (the significance level ofthe test) will be given before the test.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 3: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/3.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Introduction1. Once the idea of hypothesis tests is understood, we want to
set up standard procedures for frequently used tests.
2. The setup is always a test to reject a given null hypothesisH0 in favor of an alternative hypothesis Ha.
3. The probability α of a type I error (the significance level ofthe test) will be given before the test.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 4: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/4.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Introduction1. Once the idea of hypothesis tests is understood, we want to
set up standard procedures for frequently used tests.2. The setup is always a test to reject a given null hypothesis
H0 in favor of an alternative hypothesis Ha.
3. The probability α of a type I error (the significance level ofthe test) will be given before the test.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 5: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/5.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Introduction1. Once the idea of hypothesis tests is understood, we want to
set up standard procedures for frequently used tests.2. The setup is always a test to reject a given null hypothesis
H0 in favor of an alternative hypothesis Ha.3. The probability α of a type I error
(the significance level ofthe test) will be given before the test.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 6: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/6.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Introduction1. Once the idea of hypothesis tests is understood, we want to
set up standard procedures for frequently used tests.2. The setup is always a test to reject a given null hypothesis
H0 in favor of an alternative hypothesis Ha.3. The probability α of a type I error (the significance level of
the test)
will be given before the test.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 7: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/7.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Introduction1. Once the idea of hypothesis tests is understood, we want to
set up standard procedures for frequently used tests.2. The setup is always a test to reject a given null hypothesis
H0 in favor of an alternative hypothesis Ha.3. The probability α of a type I error (the significance level of
the test) will be given before the test.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 8: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/8.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . For H0 : µ = µ0 and Ha : µ > µ0,the rejection region should be an interval (c,∞) for somec > µ0.
α = P(X > c
)= P
(X−µ0
σ/√
n>
c−µ0
σ/√
n
)= P
(Z >
c−µ0
σ/√
n
)zα =
c−µ0
σ/√
nis the cutoff point.
For Ha : µ < µ0 or Ha : µ 6= µ0 computations are similar.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 9: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/9.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ .
For H0 : µ = µ0 and Ha : µ > µ0,the rejection region should be an interval (c,∞) for somec > µ0.
α = P(X > c
)= P
(X−µ0
σ/√
n>
c−µ0
σ/√
n
)= P
(Z >
c−µ0
σ/√
n
)zα =
c−µ0
σ/√
nis the cutoff point.
For Ha : µ < µ0 or Ha : µ 6= µ0 computations are similar.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 10: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/10.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . For H0 : µ = µ0 and Ha : µ > µ0
,the rejection region should be an interval (c,∞) for somec > µ0.
α = P(X > c
)= P
(X−µ0
σ/√
n>
c−µ0
σ/√
n
)= P
(Z >
c−µ0
σ/√
n
)zα =
c−µ0
σ/√
nis the cutoff point.
For Ha : µ < µ0 or Ha : µ 6= µ0 computations are similar.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 11: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/11.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . For H0 : µ = µ0 and Ha : µ > µ0,the rejection region should be an interval (c,∞) for somec > µ0.
α = P(X > c
)= P
(X−µ0
σ/√
n>
c−µ0
σ/√
n
)= P
(Z >
c−µ0
σ/√
n
)zα =
c−µ0
σ/√
nis the cutoff point.
For Ha : µ < µ0 or Ha : µ 6= µ0 computations are similar.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 12: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/12.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . For H0 : µ = µ0 and Ha : µ > µ0,the rejection region should be an interval (c,∞) for somec > µ0.
α = P(X > c
)
= P(
X−µ0
σ/√
n>
c−µ0
σ/√
n
)= P
(Z >
c−µ0
σ/√
n
)zα =
c−µ0
σ/√
nis the cutoff point.
For Ha : µ < µ0 or Ha : µ 6= µ0 computations are similar.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 13: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/13.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . For H0 : µ = µ0 and Ha : µ > µ0,the rejection region should be an interval (c,∞) for somec > µ0.
α = P(X > c
)= P
(X−µ0
σ/√
n>
c−µ0
σ/√
n
)
= P(
Z >c−µ0
σ/√
n
)zα =
c−µ0
σ/√
nis the cutoff point.
For Ha : µ < µ0 or Ha : µ 6= µ0 computations are similar.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 14: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/14.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . For H0 : µ = µ0 and Ha : µ > µ0,the rejection region should be an interval (c,∞) for somec > µ0.
α = P(X > c
)= P
(X−µ0
σ/√
n>
c−µ0
σ/√
n
)= P
(Z >
c−µ0
σ/√
n
)
zα =c−µ0
σ/√
nis the cutoff point.
For Ha : µ < µ0 or Ha : µ 6= µ0 computations are similar.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 15: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/15.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . For H0 : µ = µ0 and Ha : µ > µ0,the rejection region should be an interval (c,∞) for somec > µ0.
α = P(X > c
)= P
(X−µ0
σ/√
n>
c−µ0
σ/√
n
)= P
(Z >
c−µ0
σ/√
n
)zα =
c−µ0
σ/√
n
is the cutoff point.
For Ha : µ < µ0 or Ha : µ 6= µ0 computations are similar.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 16: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/16.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . For H0 : µ = µ0 and Ha : µ > µ0,the rejection region should be an interval (c,∞) for somec > µ0.
α = P(X > c
)= P
(X−µ0
σ/√
n>
c−µ0
σ/√
n
)= P
(Z >
c−µ0
σ/√
n
)zα =
c−µ0
σ/√
nis the cutoff point.
For Ha : µ < µ0 or Ha : µ 6= µ0 computations are similar.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 17: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/17.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . For H0 : µ = µ0 and Ha : µ > µ0,the rejection region should be an interval (c,∞) for somec > µ0.
α = P(X > c
)= P
(X−µ0
σ/√
n>
c−µ0
σ/√
n
)= P
(Z >
c−µ0
σ/√
n
)zα =
c−µ0
σ/√
nis the cutoff point.
For Ha : µ < µ0 or Ha : µ 6= µ0 computations are similar.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 18: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/18.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)
-
µ0
α
Upper tail test for µ≤µ0:Tail probability is ≤α (small) if µ≤µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 19: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/19.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ .
To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)
-
µ0
α
Upper tail test for µ≤µ0:Tail probability is ≤α (small) if µ≤µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 20: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/20.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses
, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)
-
µ0
α
Upper tail test for µ≤µ0:Tail probability is ≤α (small) if µ≤µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 21: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/21.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)
-
µ0
α
Upper tail test for µ≤µ0:Tail probability is ≤α (small) if µ≤µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 22: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/22.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)
-
µ0
α
Upper tail test for µ≤µ0:Tail probability is ≤α (small) if µ≤µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 23: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/23.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)
-
µ0
α
Upper tail test for µ≤µ0:Tail probability is ≤α (small) if µ≤µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 24: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/24.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)
-
µ0
α
Upper tail test for µ≤µ0:Tail probability is ≤α (small) if µ≤µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 25: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/25.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)
-
µ0
α
Upper tail test for µ≤µ0:Tail probability is ≤α (small) if µ≤µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 26: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/26.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)
-
µ0
α
Upper tail test for µ≤µ0:Tail probability is ≤α (small) if µ≤µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 27: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/27.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)
-
µ0
α
Upper tail test for µ≤µ0:Tail probability is ≤α (small) if µ≤µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 28: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/28.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)
-
µ0
α
Upper tail test for µ≤µ0:
Tail probability is ≤α (small) if µ≤µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 29: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/29.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)
-
µ0
α
Upper tail test for µ≤µ0:Tail probability is ≤α (small) if µ≤µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 30: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/30.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)
2. For Ha : µ < µ0 use z≤−zα (lower tailed test)
-
µ0
α
Lower tail test for µ≥µ0:Tail probability is ≤α (small) if µ≥µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 31: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/31.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)2. For Ha : µ < µ0 use z≤−zα (lower tailed test)
-
µ0
α
Lower tail test for µ≥µ0:Tail probability is ≤α (small) if µ≥µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 32: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/32.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)2. For Ha : µ < µ0 use z≤−zα (lower tailed test)
-
µ0
α
Lower tail test for µ≥µ0:Tail probability is ≤α (small) if µ≥µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 33: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/33.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)2. For Ha : µ < µ0 use z≤−zα (lower tailed test)
-
µ0
α
Lower tail test for µ≥µ0:Tail probability is ≤α (small) if µ≥µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 34: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/34.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)2. For Ha : µ < µ0 use z≤−zα (lower tailed test)
-
µ0
α
Lower tail test for µ≥µ0:Tail probability is ≤α (small) if µ≥µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 35: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/35.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)2. For Ha : µ < µ0 use z≤−zα (lower tailed test)
-
µ0
α
Lower tail test for µ≥µ0:Tail probability is ≤α (small) if µ≥µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 36: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/36.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)2. For Ha : µ < µ0 use z≤−zα (lower tailed test)
-
µ0
α
Lower tail test for µ≥µ0:Tail probability is ≤α (small) if µ≥µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 37: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/37.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)2. For Ha : µ < µ0 use z≤−zα (lower tailed test)
-
µ0
α
Lower tail test for µ≥µ0:
Tail probability is ≤α (small) if µ≥µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 38: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/38.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)2. For Ha : µ < µ0 use z≤−zα (lower tailed test)
-
µ0
α
Lower tail test for µ≥µ0:Tail probability is ≤α (small) if µ≥µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 39: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/39.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)2. For Ha : µ < µ0 use z≤−zα (lower tailed test)
3. For Ha : µ 6= µ0 use |z| ≥ z α
2(two-tailed test)
-
µ0
α
2α
2
Two tailed test for µ 6= µ0:Tail probability is α (small) if µ=µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 40: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/40.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)2. For Ha : µ < µ0 use z≤−zα (lower tailed test)3. For Ha : µ 6= µ0 use |z| ≥ z α
2(two-tailed test)
-
µ0
α
2α
2
Two tailed test for µ 6= µ0:Tail probability is α (small) if µ=µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 41: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/41.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)2. For Ha : µ < µ0 use z≤−zα (lower tailed test)3. For Ha : µ 6= µ0 use |z| ≥ z α
2(two-tailed test)
-
µ0
α
2α
2
Two tailed test for µ 6= µ0:Tail probability is α (small) if µ=µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 42: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/42.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)2. For Ha : µ < µ0 use z≤−zα (lower tailed test)3. For Ha : µ 6= µ0 use |z| ≥ z α
2(two-tailed test)
-
µ0
α
2α
2
Two tailed test for µ 6= µ0:Tail probability is α (small) if µ=µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 43: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/43.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)2. For Ha : µ < µ0 use z≤−zα (lower tailed test)3. For Ha : µ 6= µ0 use |z| ≥ z α
2(two-tailed test)
-
µ0
α
2α
2
Two tailed test for µ 6= µ0:Tail probability is α (small) if µ=µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 44: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/44.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)2. For Ha : µ < µ0 use z≤−zα (lower tailed test)3. For Ha : µ 6= µ0 use |z| ≥ z α
2(two-tailed test)
-
µ0
α
2α
2
Two tailed test for µ 6= µ0:Tail probability is α (small) if µ=µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 45: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/45.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)2. For Ha : µ < µ0 use z≤−zα (lower tailed test)3. For Ha : µ 6= µ0 use |z| ≥ z α
2(two-tailed test)
-
µ0
α
2
α
2
Two tailed test for µ 6= µ0:Tail probability is α (small) if µ=µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 46: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/46.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)2. For Ha : µ < µ0 use z≤−zα (lower tailed test)3. For Ha : µ 6= µ0 use |z| ≥ z α
2(two-tailed test)
-
µ0
α
2
α
2
Two tailed test for µ 6= µ0:Tail probability is α (small) if µ=µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 47: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/47.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)2. For Ha : µ < µ0 use z≤−zα (lower tailed test)3. For Ha : µ 6= µ0 use |z| ≥ z α
2(two-tailed test)
-
µ0
α
2α
2
Two tailed test for µ 6= µ0:Tail probability is α (small) if µ=µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 48: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/48.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)2. For Ha : µ < µ0 use z≤−zα (lower tailed test)3. For Ha : µ 6= µ0 use |z| ≥ z α
2(two-tailed test)
-
µ0
α
2α
2
Two tailed test for µ 6= µ0:
Tail probability is α (small) if µ=µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 49: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/49.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Consider a random sample from a normal population withknown standard deviation σ . To test the null hypothesis µ = µ0against various alternative hypotheses, we use the test statistic
z =x−µ0
σ/√
nand define the following rejection regions.
1. For Ha : µ > µ0 use z≥ zα (upper tailed test)2. For Ha : µ < µ0 use z≤−zα (lower tailed test)3. For Ha : µ 6= µ0 use |z| ≥ z α
2(two-tailed test)
-
µ0
α
2α
2
Two tailed test for µ 6= µ0:Tail probability is α (small) if µ=µ0.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 50: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/50.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Performing Hypothesis Tests
1. Determine the parameter of interest.2. Determine the null hypothesis H0.3. Determine the alternative hypothesis Ha.4. Choose the appropriate test statistic.5. Determine the rejection region using the significance level.6. Determine if the test statistic falls into the rejection region
or not. Reject or don’t reject accordingly.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 51: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/51.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Performing Hypothesis Tests1. Determine the parameter of interest.
2. Determine the null hypothesis H0.3. Determine the alternative hypothesis Ha.4. Choose the appropriate test statistic.5. Determine the rejection region using the significance level.6. Determine if the test statistic falls into the rejection region
or not. Reject or don’t reject accordingly.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 52: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/52.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Performing Hypothesis Tests1. Determine the parameter of interest.2. Determine the null hypothesis H0.
3. Determine the alternative hypothesis Ha.4. Choose the appropriate test statistic.5. Determine the rejection region using the significance level.6. Determine if the test statistic falls into the rejection region
or not. Reject or don’t reject accordingly.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 53: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/53.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Performing Hypothesis Tests1. Determine the parameter of interest.2. Determine the null hypothesis H0.3. Determine the alternative hypothesis Ha.
4. Choose the appropriate test statistic.5. Determine the rejection region using the significance level.6. Determine if the test statistic falls into the rejection region
or not. Reject or don’t reject accordingly.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 54: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/54.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Performing Hypothesis Tests1. Determine the parameter of interest.2. Determine the null hypothesis H0.3. Determine the alternative hypothesis Ha.4. Choose the appropriate test statistic.
5. Determine the rejection region using the significance level.6. Determine if the test statistic falls into the rejection region
or not. Reject or don’t reject accordingly.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 55: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/55.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Performing Hypothesis Tests1. Determine the parameter of interest.2. Determine the null hypothesis H0.3. Determine the alternative hypothesis Ha.4. Choose the appropriate test statistic.5. Determine the rejection region using the significance level.
6. Determine if the test statistic falls into the rejection regionor not. Reject or don’t reject accordingly.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 56: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/56.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Performing Hypothesis Tests1. Determine the parameter of interest.2. Determine the null hypothesis H0.3. Determine the alternative hypothesis Ha.4. Choose the appropriate test statistic.5. Determine the rejection region using the significance level.6. Determine if the test statistic falls into the rejection region
or not.
Reject or don’t reject accordingly.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 57: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/57.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Performing Hypothesis Tests1. Determine the parameter of interest.2. Determine the null hypothesis H0.3. Determine the alternative hypothesis Ha.4. Choose the appropriate test statistic.5. Determine the rejection region using the significance level.6. Determine if the test statistic falls into the rejection region
or not. Reject or don’t reject accordingly.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 58: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/58.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example.
A new type of body armor is tested if it satisfies thespecification of at most µ0 = 1.9in of displacement when hitwith a certain type of bullet. The manufacturer tests by firingone round each at 36 samples of the new armor and measuringthe displacement upon impact. The result is a sample meandisplacement of 1.91 in. Assume the displacements arenormally distributed with mean µ and a standard deviation of0.06 in. Test if the armor is up to specifications at the 10%significance level.
Parameter of interest: µ , the true mean displacement.Null hypothesis: H0 : µ = 1.9in (null value of µ0)Alternative hypothesis: Ha : µ > 1.9in (the main concern is adisplacement that is larger than what is claimed).
Test statistic: z =x−µ0
σ/√
n=
x−1.90.06/
√n
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 59: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/59.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. A new type of body armor is tested if it satisfies thespecification of at most µ0 = 1.9in of displacement when hitwith a certain type of bullet.
The manufacturer tests by firingone round each at 36 samples of the new armor and measuringthe displacement upon impact. The result is a sample meandisplacement of 1.91 in. Assume the displacements arenormally distributed with mean µ and a standard deviation of0.06 in. Test if the armor is up to specifications at the 10%significance level.
Parameter of interest: µ , the true mean displacement.Null hypothesis: H0 : µ = 1.9in (null value of µ0)Alternative hypothesis: Ha : µ > 1.9in (the main concern is adisplacement that is larger than what is claimed).
Test statistic: z =x−µ0
σ/√
n=
x−1.90.06/
√n
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 60: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/60.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. A new type of body armor is tested if it satisfies thespecification of at most µ0 = 1.9in of displacement when hitwith a certain type of bullet. The manufacturer tests by firingone round each at 36 samples of the new armor and measuringthe displacement upon impact.
The result is a sample meandisplacement of 1.91 in. Assume the displacements arenormally distributed with mean µ and a standard deviation of0.06 in. Test if the armor is up to specifications at the 10%significance level.
Parameter of interest: µ , the true mean displacement.Null hypothesis: H0 : µ = 1.9in (null value of µ0)Alternative hypothesis: Ha : µ > 1.9in (the main concern is adisplacement that is larger than what is claimed).
Test statistic: z =x−µ0
σ/√
n=
x−1.90.06/
√n
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 61: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/61.jpg)
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Testing Normal Distributions Example Sample Size Determination t-tests
Example. A new type of body armor is tested if it satisfies thespecification of at most µ0 = 1.9in of displacement when hitwith a certain type of bullet. The manufacturer tests by firingone round each at 36 samples of the new armor and measuringthe displacement upon impact. The result is a sample meandisplacement of 1.91 in.
Assume the displacements arenormally distributed with mean µ and a standard deviation of0.06 in. Test if the armor is up to specifications at the 10%significance level.
Parameter of interest: µ , the true mean displacement.Null hypothesis: H0 : µ = 1.9in (null value of µ0)Alternative hypothesis: Ha : µ > 1.9in (the main concern is adisplacement that is larger than what is claimed).
Test statistic: z =x−µ0
σ/√
n=
x−1.90.06/
√n
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 62: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/62.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. A new type of body armor is tested if it satisfies thespecification of at most µ0 = 1.9in of displacement when hitwith a certain type of bullet. The manufacturer tests by firingone round each at 36 samples of the new armor and measuringthe displacement upon impact. The result is a sample meandisplacement of 1.91 in. Assume the displacements arenormally distributed with mean µ and a standard deviation of0.06 in.
Test if the armor is up to specifications at the 10%significance level.
Parameter of interest: µ , the true mean displacement.Null hypothesis: H0 : µ = 1.9in (null value of µ0)Alternative hypothesis: Ha : µ > 1.9in (the main concern is adisplacement that is larger than what is claimed).
Test statistic: z =x−µ0
σ/√
n=
x−1.90.06/
√n
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 63: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/63.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. A new type of body armor is tested if it satisfies thespecification of at most µ0 = 1.9in of displacement when hitwith a certain type of bullet. The manufacturer tests by firingone round each at 36 samples of the new armor and measuringthe displacement upon impact. The result is a sample meandisplacement of 1.91 in. Assume the displacements arenormally distributed with mean µ and a standard deviation of0.06 in. Test if the armor is up to specifications at the 10%significance level.
Parameter of interest: µ , the true mean displacement.Null hypothesis: H0 : µ = 1.9in (null value of µ0)Alternative hypothesis: Ha : µ > 1.9in (the main concern is adisplacement that is larger than what is claimed).
Test statistic: z =x−µ0
σ/√
n=
x−1.90.06/
√n
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 64: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/64.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. A new type of body armor is tested if it satisfies thespecification of at most µ0 = 1.9in of displacement when hitwith a certain type of bullet. The manufacturer tests by firingone round each at 36 samples of the new armor and measuringthe displacement upon impact. The result is a sample meandisplacement of 1.91 in. Assume the displacements arenormally distributed with mean µ and a standard deviation of0.06 in. Test if the armor is up to specifications at the 10%significance level.
Parameter of interest:
µ , the true mean displacement.Null hypothesis: H0 : µ = 1.9in (null value of µ0)Alternative hypothesis: Ha : µ > 1.9in (the main concern is adisplacement that is larger than what is claimed).
Test statistic: z =x−µ0
σ/√
n=
x−1.90.06/
√n
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 65: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/65.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. A new type of body armor is tested if it satisfies thespecification of at most µ0 = 1.9in of displacement when hitwith a certain type of bullet. The manufacturer tests by firingone round each at 36 samples of the new armor and measuringthe displacement upon impact. The result is a sample meandisplacement of 1.91 in. Assume the displacements arenormally distributed with mean µ and a standard deviation of0.06 in. Test if the armor is up to specifications at the 10%significance level.
Parameter of interest: µ , the true mean displacement.
Null hypothesis: H0 : µ = 1.9in (null value of µ0)Alternative hypothesis: Ha : µ > 1.9in (the main concern is adisplacement that is larger than what is claimed).
Test statistic: z =x−µ0
σ/√
n=
x−1.90.06/
√n
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 66: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/66.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. A new type of body armor is tested if it satisfies thespecification of at most µ0 = 1.9in of displacement when hitwith a certain type of bullet. The manufacturer tests by firingone round each at 36 samples of the new armor and measuringthe displacement upon impact. The result is a sample meandisplacement of 1.91 in. Assume the displacements arenormally distributed with mean µ and a standard deviation of0.06 in. Test if the armor is up to specifications at the 10%significance level.
Parameter of interest: µ , the true mean displacement.Null hypothesis:
H0 : µ = 1.9in (null value of µ0)Alternative hypothesis: Ha : µ > 1.9in (the main concern is adisplacement that is larger than what is claimed).
Test statistic: z =x−µ0
σ/√
n=
x−1.90.06/
√n
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 67: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/67.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. A new type of body armor is tested if it satisfies thespecification of at most µ0 = 1.9in of displacement when hitwith a certain type of bullet. The manufacturer tests by firingone round each at 36 samples of the new armor and measuringthe displacement upon impact. The result is a sample meandisplacement of 1.91 in. Assume the displacements arenormally distributed with mean µ and a standard deviation of0.06 in. Test if the armor is up to specifications at the 10%significance level.
Parameter of interest: µ , the true mean displacement.Null hypothesis: H0 : µ = 1.9in (null value of µ0)
Alternative hypothesis: Ha : µ > 1.9in (the main concern is adisplacement that is larger than what is claimed).
Test statistic: z =x−µ0
σ/√
n=
x−1.90.06/
√n
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 68: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/68.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. A new type of body armor is tested if it satisfies thespecification of at most µ0 = 1.9in of displacement when hitwith a certain type of bullet. The manufacturer tests by firingone round each at 36 samples of the new armor and measuringthe displacement upon impact. The result is a sample meandisplacement of 1.91 in. Assume the displacements arenormally distributed with mean µ and a standard deviation of0.06 in. Test if the armor is up to specifications at the 10%significance level.
Parameter of interest: µ , the true mean displacement.Null hypothesis: H0 : µ = 1.9in (null value of µ0)Alternative hypothesis:
Ha : µ > 1.9in (the main concern is adisplacement that is larger than what is claimed).
Test statistic: z =x−µ0
σ/√
n=
x−1.90.06/
√n
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 69: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/69.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. A new type of body armor is tested if it satisfies thespecification of at most µ0 = 1.9in of displacement when hitwith a certain type of bullet. The manufacturer tests by firingone round each at 36 samples of the new armor and measuringthe displacement upon impact. The result is a sample meandisplacement of 1.91 in. Assume the displacements arenormally distributed with mean µ and a standard deviation of0.06 in. Test if the armor is up to specifications at the 10%significance level.
Parameter of interest: µ , the true mean displacement.Null hypothesis: H0 : µ = 1.9in (null value of µ0)Alternative hypothesis: Ha : µ > 1.9in
(the main concern is adisplacement that is larger than what is claimed).
Test statistic: z =x−µ0
σ/√
n=
x−1.90.06/
√n
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 70: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/70.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. A new type of body armor is tested if it satisfies thespecification of at most µ0 = 1.9in of displacement when hitwith a certain type of bullet. The manufacturer tests by firingone round each at 36 samples of the new armor and measuringthe displacement upon impact. The result is a sample meandisplacement of 1.91 in. Assume the displacements arenormally distributed with mean µ and a standard deviation of0.06 in. Test if the armor is up to specifications at the 10%significance level.
Parameter of interest: µ , the true mean displacement.Null hypothesis: H0 : µ = 1.9in (null value of µ0)Alternative hypothesis: Ha : µ > 1.9in (the main concern is adisplacement that is larger than what is claimed).
Test statistic: z =x−µ0
σ/√
n=
x−1.90.06/
√n
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 71: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/71.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. A new type of body armor is tested if it satisfies thespecification of at most µ0 = 1.9in of displacement when hitwith a certain type of bullet. The manufacturer tests by firingone round each at 36 samples of the new armor and measuringthe displacement upon impact. The result is a sample meandisplacement of 1.91 in. Assume the displacements arenormally distributed with mean µ and a standard deviation of0.06 in. Test if the armor is up to specifications at the 10%significance level.
Parameter of interest: µ , the true mean displacement.Null hypothesis: H0 : µ = 1.9in (null value of µ0)Alternative hypothesis: Ha : µ > 1.9in (the main concern is adisplacement that is larger than what is claimed).
Test statistic:
z =x−µ0
σ/√
n=
x−1.90.06/
√n
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 72: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/72.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. A new type of body armor is tested if it satisfies thespecification of at most µ0 = 1.9in of displacement when hitwith a certain type of bullet. The manufacturer tests by firingone round each at 36 samples of the new armor and measuringthe displacement upon impact. The result is a sample meandisplacement of 1.91 in. Assume the displacements arenormally distributed with mean µ and a standard deviation of0.06 in. Test if the armor is up to specifications at the 10%significance level.
Parameter of interest: µ , the true mean displacement.Null hypothesis: H0 : µ = 1.9in (null value of µ0)Alternative hypothesis: Ha : µ > 1.9in (the main concern is adisplacement that is larger than what is claimed).
Test statistic: z =x−µ0
σ/√
n
=x−1.9
0.06/√
n
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 73: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/73.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. A new type of body armor is tested if it satisfies thespecification of at most µ0 = 1.9in of displacement when hitwith a certain type of bullet. The manufacturer tests by firingone round each at 36 samples of the new armor and measuringthe displacement upon impact. The result is a sample meandisplacement of 1.91 in. Assume the displacements arenormally distributed with mean µ and a standard deviation of0.06 in. Test if the armor is up to specifications at the 10%significance level.
Parameter of interest: µ , the true mean displacement.Null hypothesis: H0 : µ = 1.9in (null value of µ0)Alternative hypothesis: Ha : µ > 1.9in (the main concern is adisplacement that is larger than what is claimed).
Test statistic: z =x−µ0
σ/√
n=
x−1.90.06/
√n
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 74: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/74.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Parameter of interest: µ , the true mean displacement.Null hypothesis: H0 : µ = 1.9in (null value of µ0)Alternative hypothesis: Ha : µ > 1.9in (the main concern is adisplacement that is larger than what is claimed).
Test statistic: z =x−µ0
σ/√
n=
x−1.90.06/
√n
Rejection region: We use an upper tailed test and the rejectionregion is z > z0.1 ≈ 1.28.Substitute values into test statistic:z =
x−µ0
σ/√
n=
1.91−1.90.06/
√36
=0.010.01
= 1
Decide if to reject or not. Do not reject the null hypothesis,because the test statistic is not in the rejection region.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 75: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/75.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Parameter of interest: µ , the true mean displacement.Null hypothesis: H0 : µ = 1.9in (null value of µ0)Alternative hypothesis: Ha : µ > 1.9in (the main concern is adisplacement that is larger than what is claimed).
Test statistic: z =x−µ0
σ/√
n=
x−1.90.06/
√n
Rejection region: We use an upper tailed test and the rejectionregion is z > z0.1 ≈ 1.28.Substitute values into test statistic:z =
x−µ0
σ/√
n=
1.91−1.90.06/
√36
=0.010.01
= 1
Decide if to reject or not. Do not reject the null hypothesis,because the test statistic is not in the rejection region.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 76: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/76.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Parameter of interest: µ , the true mean displacement.Null hypothesis: H0 : µ = 1.9in (null value of µ0)Alternative hypothesis: Ha : µ > 1.9in (the main concern is adisplacement that is larger than what is claimed).
Test statistic: z =x−µ0
σ/√
n=
x−1.90.06/
√n
Rejection region:
We use an upper tailed test and the rejectionregion is z > z0.1 ≈ 1.28.Substitute values into test statistic:z =
x−µ0
σ/√
n=
1.91−1.90.06/
√36
=0.010.01
= 1
Decide if to reject or not. Do not reject the null hypothesis,because the test statistic is not in the rejection region.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 77: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/77.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Parameter of interest: µ , the true mean displacement.Null hypothesis: H0 : µ = 1.9in (null value of µ0)Alternative hypothesis: Ha : µ > 1.9in (the main concern is adisplacement that is larger than what is claimed).
Test statistic: z =x−µ0
σ/√
n=
x−1.90.06/
√n
Rejection region: We use an upper tailed test and the rejectionregion is z > z0.1 ≈ 1.28.
Substitute values into test statistic:z =
x−µ0
σ/√
n=
1.91−1.90.06/
√36
=0.010.01
= 1
Decide if to reject or not. Do not reject the null hypothesis,because the test statistic is not in the rejection region.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 78: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/78.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Parameter of interest: µ , the true mean displacement.Null hypothesis: H0 : µ = 1.9in (null value of µ0)Alternative hypothesis: Ha : µ > 1.9in (the main concern is adisplacement that is larger than what is claimed).
Test statistic: z =x−µ0
σ/√
n=
x−1.90.06/
√n
Rejection region: We use an upper tailed test and the rejectionregion is z > z0.1 ≈ 1.28.Substitute values into test statistic:
z =x−µ0
σ/√
n=
1.91−1.90.06/
√36
=0.010.01
= 1
Decide if to reject or not. Do not reject the null hypothesis,because the test statistic is not in the rejection region.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 79: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/79.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Parameter of interest: µ , the true mean displacement.Null hypothesis: H0 : µ = 1.9in (null value of µ0)Alternative hypothesis: Ha : µ > 1.9in (the main concern is adisplacement that is larger than what is claimed).
Test statistic: z =x−µ0
σ/√
n=
x−1.90.06/
√n
Rejection region: We use an upper tailed test and the rejectionregion is z > z0.1 ≈ 1.28.Substitute values into test statistic:z
=x−µ0
σ/√
n=
1.91−1.90.06/
√36
=0.010.01
= 1
Decide if to reject or not. Do not reject the null hypothesis,because the test statistic is not in the rejection region.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 80: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/80.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Parameter of interest: µ , the true mean displacement.Null hypothesis: H0 : µ = 1.9in (null value of µ0)Alternative hypothesis: Ha : µ > 1.9in (the main concern is adisplacement that is larger than what is claimed).
Test statistic: z =x−µ0
σ/√
n=
x−1.90.06/
√n
Rejection region: We use an upper tailed test and the rejectionregion is z > z0.1 ≈ 1.28.Substitute values into test statistic:z =
x−µ0
σ/√
n
=1.91−1.90.06/
√36
=0.010.01
= 1
Decide if to reject or not. Do not reject the null hypothesis,because the test statistic is not in the rejection region.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 81: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/81.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Parameter of interest: µ , the true mean displacement.Null hypothesis: H0 : µ = 1.9in (null value of µ0)Alternative hypothesis: Ha : µ > 1.9in (the main concern is adisplacement that is larger than what is claimed).
Test statistic: z =x−µ0
σ/√
n=
x−1.90.06/
√n
Rejection region: We use an upper tailed test and the rejectionregion is z > z0.1 ≈ 1.28.Substitute values into test statistic:z =
x−µ0
σ/√
n=
1.91−1.90.06/
√36
=0.010.01
= 1
Decide if to reject or not. Do not reject the null hypothesis,because the test statistic is not in the rejection region.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 82: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/82.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Parameter of interest: µ , the true mean displacement.Null hypothesis: H0 : µ = 1.9in (null value of µ0)Alternative hypothesis: Ha : µ > 1.9in (the main concern is adisplacement that is larger than what is claimed).
Test statistic: z =x−µ0
σ/√
n=
x−1.90.06/
√n
Rejection region: We use an upper tailed test and the rejectionregion is z > z0.1 ≈ 1.28.Substitute values into test statistic:z =
x−µ0
σ/√
n=
1.91−1.90.06/
√36
=0.010.01
= 1
Decide if to reject or not. Do not reject the null hypothesis,because the test statistic is not in the rejection region.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 83: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/83.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Parameter of interest: µ , the true mean displacement.Null hypothesis: H0 : µ = 1.9in (null value of µ0)Alternative hypothesis: Ha : µ > 1.9in (the main concern is adisplacement that is larger than what is claimed).
Test statistic: z =x−µ0
σ/√
n=
x−1.90.06/
√n
Rejection region: We use an upper tailed test and the rejectionregion is z > z0.1 ≈ 1.28.Substitute values into test statistic:z =
x−µ0
σ/√
n=
1.91−1.90.06/
√36
=0.010.01
= 1
Decide if to reject or not. Do not reject the null hypothesis,because the test statistic is not in the rejection region.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 84: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/84.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Parameter of interest: µ , the true mean displacement.Null hypothesis: H0 : µ = 1.9in (null value of µ0)Alternative hypothesis: Ha : µ > 1.9in (the main concern is adisplacement that is larger than what is claimed).
Test statistic: z =x−µ0
σ/√
n=
x−1.90.06/
√n
Rejection region: We use an upper tailed test and the rejectionregion is z > z0.1 ≈ 1.28.Substitute values into test statistic:z =
x−µ0
σ/√
n=
1.91−1.90.06/
√36
=0.010.01
= 1
Decide if to reject or not.
Do not reject the null hypothesis,because the test statistic is not in the rejection region.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 85: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/85.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Parameter of interest: µ , the true mean displacement.Null hypothesis: H0 : µ = 1.9in (null value of µ0)Alternative hypothesis: Ha : µ > 1.9in (the main concern is adisplacement that is larger than what is claimed).
Test statistic: z =x−µ0
σ/√
n=
x−1.90.06/
√n
Rejection region: We use an upper tailed test and the rejectionregion is z > z0.1 ≈ 1.28.Substitute values into test statistic:z =
x−µ0
σ/√
n=
1.91−1.90.06/
√36
=0.010.01
= 1
Decide if to reject or not. Do not reject the null hypothesis,because the test statistic is not in the rejection region.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 86: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/86.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Discussion
A type II error is more serious than a type I error here. At thesame time, it is sensible to use a null hypothesis that says yourproduct works. Otherwise false negatives may keep you fromever producing.
But when a test says “reject”, you really reject. That’s it. Evenif it’s expensive.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 87: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/87.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
DiscussionA type II error is more serious than a type I error here.
At thesame time, it is sensible to use a null hypothesis that says yourproduct works. Otherwise false negatives may keep you fromever producing.
But when a test says “reject”, you really reject. That’s it. Evenif it’s expensive.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 88: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/88.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
DiscussionA type II error is more serious than a type I error here. At thesame time, it is sensible to use a null hypothesis that says yourproduct works.
Otherwise false negatives may keep you fromever producing.
But when a test says “reject”, you really reject. That’s it. Evenif it’s expensive.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 89: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/89.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
DiscussionA type II error is more serious than a type I error here. At thesame time, it is sensible to use a null hypothesis that says yourproduct works. Otherwise false negatives may keep you fromever producing.
But when a test says “reject”, you really reject. That’s it. Evenif it’s expensive.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 90: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/90.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
DiscussionA type II error is more serious than a type I error here. At thesame time, it is sensible to use a null hypothesis that says yourproduct works. Otherwise false negatives may keep you fromever producing.
But when a test says “reject”, you really reject.
That’s it. Evenif it’s expensive.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 91: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/91.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
DiscussionA type II error is more serious than a type I error here. At thesame time, it is sensible to use a null hypothesis that says yourproduct works. Otherwise false negatives may keep you fromever producing.
But when a test says “reject”, you really reject. That’s it.
Evenif it’s expensive.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 92: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/92.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
DiscussionA type II error is more serious than a type I error here. At thesame time, it is sensible to use a null hypothesis that says yourproduct works. Otherwise false negatives may keep you fromever producing.
But when a test says “reject”, you really reject. That’s it. Evenif it’s expensive.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 93: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/93.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Probability of a type II error for Ha : µ > µ0.
β (µ′) = P
(X < µ0 + zασ/
√n|µ = µ
′)= P
(X−µ ′
σ/√
n< zα +
µ0−µ ′
σ/√
n
)= Φ
(zα +
µ0−µ ′
σ/√
n
)
-
µ0
α
µ ’
β
Upper tail test for µ≤µ0:If µ=µ ’>µ0, non-rejection probability is β .
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 94: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/94.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Probability of a type II error for Ha : µ > µ0.
β (µ′)
= P(X < µ0 + zασ/
√n|µ = µ
′)= P
(X−µ ′
σ/√
n< zα +
µ0−µ ′
σ/√
n
)= Φ
(zα +
µ0−µ ′
σ/√
n
)
-
µ0
α
µ ’
β
Upper tail test for µ≤µ0:If µ=µ ’>µ0, non-rejection probability is β .
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 95: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/95.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Probability of a type II error for Ha : µ > µ0.
β (µ′) = P
(X < µ0 + zασ/
√n|µ = µ
′)
= P(
X−µ ′
σ/√
n< zα +
µ0−µ ′
σ/√
n
)= Φ
(zα +
µ0−µ ′
σ/√
n
)
-
µ0
α
µ ’
β
Upper tail test for µ≤µ0:If µ=µ ’>µ0, non-rejection probability is β .
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 96: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/96.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Probability of a type II error for Ha : µ > µ0.
β (µ′) = P
(X < µ0 + zασ/
√n|µ = µ
′)= P
(X−µ ′
σ/√
n< zα +
µ0−µ ′
σ/√
n
)
= Φ
(zα +
µ0−µ ′
σ/√
n
)
-
µ0
α
µ ’
β
Upper tail test for µ≤µ0:If µ=µ ’>µ0, non-rejection probability is β .
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 97: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/97.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Probability of a type II error for Ha : µ > µ0.
β (µ′) = P
(X < µ0 + zασ/
√n|µ = µ
′)= P
(X−µ ′
σ/√
n< zα +
µ0−µ ′
σ/√
n
)= Φ
(zα +
µ0−µ ′
σ/√
n
)
-
µ0
α
µ ’
β
Upper tail test for µ≤µ0:If µ=µ ’>µ0, non-rejection probability is β .
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 98: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/98.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Probability of a type II error for Ha : µ > µ0.
β (µ′) = P
(X < µ0 + zασ/
√n|µ = µ
′)= P
(X−µ ′
σ/√
n< zα +
µ0−µ ′
σ/√
n
)= Φ
(zα +
µ0−µ ′
σ/√
n
)
-
µ0
α
µ ’
β
Upper tail test for µ≤µ0:If µ=µ ’>µ0, non-rejection probability is β .
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 99: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/99.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Probability of a type II error for Ha : µ > µ0.
β (µ′) = P
(X < µ0 + zασ/
√n|µ = µ
′)= P
(X−µ ′
σ/√
n< zα +
µ0−µ ′
σ/√
n
)= Φ
(zα +
µ0−µ ′
σ/√
n
)
-
µ0
α
µ ’
β
Upper tail test for µ≤µ0:If µ=µ ’>µ0, non-rejection probability is β .
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 100: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/100.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Probability of a type II error for Ha : µ > µ0.
β (µ′) = P
(X < µ0 + zασ/
√n|µ = µ
′)= P
(X−µ ′
σ/√
n< zα +
µ0−µ ′
σ/√
n
)= Φ
(zα +
µ0−µ ′
σ/√
n
)
-
µ0
α
µ ’
β
Upper tail test for µ≤µ0:If µ=µ ’>µ0, non-rejection probability is β .
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 101: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/101.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Probability of a type II error for Ha : µ > µ0.
β (µ′) = P
(X < µ0 + zασ/
√n|µ = µ
′)= P
(X−µ ′
σ/√
n< zα +
µ0−µ ′
σ/√
n
)= Φ
(zα +
µ0−µ ′
σ/√
n
)
-
µ0
α
µ ’
β
Upper tail test for µ≤µ0:If µ=µ ’>µ0, non-rejection probability is β .
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 102: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/102.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Probability of a type II error for Ha : µ > µ0.
β (µ′) = P
(X < µ0 + zασ/
√n|µ = µ
′)= P
(X−µ ′
σ/√
n< zα +
µ0−µ ′
σ/√
n
)= Φ
(zα +
µ0−µ ′
σ/√
n
)
-
µ0
α
µ ’
β
Upper tail test for µ≤µ0:If µ=µ ’>µ0, non-rejection probability is β .
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 103: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/103.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Probability of a type II error for Ha : µ > µ0.
β (µ′) = P
(X < µ0 + zασ/
√n|µ = µ
′)= P
(X−µ ′
σ/√
n< zα +
µ0−µ ′
σ/√
n
)= Φ
(zα +
µ0−µ ′
σ/√
n
)
-
µ0
α
µ ’
β
Upper tail test for µ≤µ0:If µ=µ ’>µ0, non-rejection probability is β .
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 104: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/104.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Probability of a type II error for Ha : µ > µ0.
β (µ′) = P
(X < µ0 + zασ/
√n|µ = µ
′)= P
(X−µ ′
σ/√
n< zα +
µ0−µ ′
σ/√
n
)= Φ
(zα +
µ0−µ ′
σ/√
n
)
-
µ0
α
µ ’
β
Upper tail test for µ≤µ0:
If µ=µ ’>µ0, non-rejection probability is β .
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 105: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/105.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Probability of a type II error for Ha : µ > µ0.
β (µ′) = P
(X < µ0 + zασ/
√n|µ = µ
′)= P
(X−µ ′
σ/√
n< zα +
µ0−µ ′
σ/√
n
)= Φ
(zα +
µ0−µ ′
σ/√
n
)
-
µ0
α
µ ’
β
Upper tail test for µ≤µ0:If µ=µ ’>µ0, non-rejection probability is β .
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 106: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/106.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
With α and β specified, we can determine a sample size thatwill yield these probabilities, provided that a value µ ′ for whichβ (µ ′) = β is given. For an upper tailed test, we should choosen to satisfy the following.
Φ
(zα +
µ0−µ ′
σ/√
n
)= β
zα +µ0−µ ′
σ/√
n= −zβ
zα + zβ = −√
nµ0−µ ′
σ
√n =
σ(zα + zβ )µ ′−µ0
n =(
σ(zα + zβ )µ ′−µ0
)2
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 107: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/107.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
With α and β specified, we can determine a sample size thatwill yield these probabilities,
provided that a value µ ′ for whichβ (µ ′) = β is given. For an upper tailed test, we should choosen to satisfy the following.
Φ
(zα +
µ0−µ ′
σ/√
n
)= β
zα +µ0−µ ′
σ/√
n= −zβ
zα + zβ = −√
nµ0−µ ′
σ
√n =
σ(zα + zβ )µ ′−µ0
n =(
σ(zα + zβ )µ ′−µ0
)2
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 108: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/108.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
With α and β specified, we can determine a sample size thatwill yield these probabilities, provided that a value µ ′ for whichβ (µ ′) = β is given.
For an upper tailed test, we should choosen to satisfy the following.
Φ
(zα +
µ0−µ ′
σ/√
n
)= β
zα +µ0−µ ′
σ/√
n= −zβ
zα + zβ = −√
nµ0−µ ′
σ
√n =
σ(zα + zβ )µ ′−µ0
n =(
σ(zα + zβ )µ ′−µ0
)2
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 109: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/109.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
With α and β specified, we can determine a sample size thatwill yield these probabilities, provided that a value µ ′ for whichβ (µ ′) = β is given. For an upper tailed test, we should choosen to satisfy the following.
Φ
(zα +
µ0−µ ′
σ/√
n
)= β
zα +µ0−µ ′
σ/√
n= −zβ
zα + zβ = −√
nµ0−µ ′
σ
√n =
σ(zα + zβ )µ ′−µ0
n =(
σ(zα + zβ )µ ′−µ0
)2
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 110: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/110.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
With α and β specified, we can determine a sample size thatwill yield these probabilities, provided that a value µ ′ for whichβ (µ ′) = β is given. For an upper tailed test, we should choosen to satisfy the following.
Φ
(zα +
µ0−µ ′
σ/√
n
)= β
zα +µ0−µ ′
σ/√
n= −zβ
zα + zβ = −√
nµ0−µ ′
σ
√n =
σ(zα + zβ )µ ′−µ0
n =(
σ(zα + zβ )µ ′−µ0
)2
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 111: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/111.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
With α and β specified, we can determine a sample size thatwill yield these probabilities, provided that a value µ ′ for whichβ (µ ′) = β is given. For an upper tailed test, we should choosen to satisfy the following.
Φ
(zα +
µ0−µ ′
σ/√
n
)= β
zα +µ0−µ ′
σ/√
n= −zβ
zα + zβ = −√
nµ0−µ ′
σ
√n =
σ(zα + zβ )µ ′−µ0
n =(
σ(zα + zβ )µ ′−µ0
)2
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 112: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/112.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
With α and β specified, we can determine a sample size thatwill yield these probabilities, provided that a value µ ′ for whichβ (µ ′) = β is given. For an upper tailed test, we should choosen to satisfy the following.
Φ
(zα +
µ0−µ ′
σ/√
n
)= β
zα +µ0−µ ′
σ/√
n= −zβ
zα + zβ = −√
nµ0−µ ′
σ
√n =
σ(zα + zβ )µ ′−µ0
n =(
σ(zα + zβ )µ ′−µ0
)2
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 113: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/113.jpg)
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Testing Normal Distributions Example Sample Size Determination t-tests
With α and β specified, we can determine a sample size thatwill yield these probabilities, provided that a value µ ′ for whichβ (µ ′) = β is given. For an upper tailed test, we should choosen to satisfy the following.
Φ
(zα +
µ0−µ ′
σ/√
n
)= β
zα +µ0−µ ′
σ/√
n= −zβ
zα + zβ = −√
nµ0−µ ′
σ
√n =
σ(zα + zβ )µ ′−µ0
n =(
σ(zα + zβ )µ ′−µ0
)2
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 114: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/114.jpg)
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Testing Normal Distributions Example Sample Size Determination t-tests
With α and β specified, we can determine a sample size thatwill yield these probabilities, provided that a value µ ′ for whichβ (µ ′) = β is given. For an upper tailed test, we should choosen to satisfy the following.
Φ
(zα +
µ0−µ ′
σ/√
n
)= β
zα +µ0−µ ′
σ/√
n= −zβ
zα + zβ = −√
nµ0−µ ′
σ
√n =
σ(zα + zβ )µ ′−µ0
n =(
σ(zα + zβ )µ ′−µ0
)2
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 115: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/115.jpg)
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Testing Normal Distributions Example Sample Size Determination t-tests
Example.
Suppose a production run of a new type of bodyarmor is tested if it satisfies the specification of at mostµ0 = 1.9 in of displacement when hit with a certain type ofbullet. Compute n so that with µ ′ = 2 in (military spec:displacement no more than 2 in), normal distribution andσ = 0.06 in a test at the 10% significance level has at most achance of 0.0005 = 0.05% for a type II error.
z0.1 = 1.28z0.0005 = 3.29
n =
⌈(0.06(1.28+3.29)
2−1.9
)2⌉
=⌈(0.6 ·4.57)2
⌉= d7.52e= 8
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 116: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/116.jpg)
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Testing Normal Distributions Example Sample Size Determination t-tests
Example. Suppose a production run of a new type of bodyarmor is tested if it satisfies the specification of at mostµ0 = 1.9 in of displacement when hit with a certain type ofbullet.
Compute n so that with µ ′ = 2 in (military spec:displacement no more than 2 in), normal distribution andσ = 0.06 in a test at the 10% significance level has at most achance of 0.0005 = 0.05% for a type II error.
z0.1 = 1.28z0.0005 = 3.29
n =
⌈(0.06(1.28+3.29)
2−1.9
)2⌉
=⌈(0.6 ·4.57)2
⌉= d7.52e= 8
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 117: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/117.jpg)
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Testing Normal Distributions Example Sample Size Determination t-tests
Example. Suppose a production run of a new type of bodyarmor is tested if it satisfies the specification of at mostµ0 = 1.9 in of displacement when hit with a certain type ofbullet. Compute n so that with µ ′ = 2 in
(military spec:displacement no more than 2 in), normal distribution andσ = 0.06 in a test at the 10% significance level has at most achance of 0.0005 = 0.05% for a type II error.
z0.1 = 1.28z0.0005 = 3.29
n =
⌈(0.06(1.28+3.29)
2−1.9
)2⌉
=⌈(0.6 ·4.57)2
⌉= d7.52e= 8
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 118: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/118.jpg)
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Testing Normal Distributions Example Sample Size Determination t-tests
Example. Suppose a production run of a new type of bodyarmor is tested if it satisfies the specification of at mostµ0 = 1.9 in of displacement when hit with a certain type ofbullet. Compute n so that with µ ′ = 2 in (military spec:displacement no more than 2 in)
, normal distribution andσ = 0.06 in a test at the 10% significance level has at most achance of 0.0005 = 0.05% for a type II error.
z0.1 = 1.28z0.0005 = 3.29
n =
⌈(0.06(1.28+3.29)
2−1.9
)2⌉
=⌈(0.6 ·4.57)2
⌉= d7.52e= 8
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 119: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/119.jpg)
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Testing Normal Distributions Example Sample Size Determination t-tests
Example. Suppose a production run of a new type of bodyarmor is tested if it satisfies the specification of at mostµ0 = 1.9 in of displacement when hit with a certain type ofbullet. Compute n so that with µ ′ = 2 in (military spec:displacement no more than 2 in), normal distribution andσ = 0.06 in
a test at the 10% significance level has at most achance of 0.0005 = 0.05% for a type II error.
z0.1 = 1.28z0.0005 = 3.29
n =
⌈(0.06(1.28+3.29)
2−1.9
)2⌉
=⌈(0.6 ·4.57)2
⌉= d7.52e= 8
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 120: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/120.jpg)
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Testing Normal Distributions Example Sample Size Determination t-tests
Example. Suppose a production run of a new type of bodyarmor is tested if it satisfies the specification of at mostµ0 = 1.9 in of displacement when hit with a certain type ofbullet. Compute n so that with µ ′ = 2 in (military spec:displacement no more than 2 in), normal distribution andσ = 0.06 in a test at the 10% significance level has at most achance of 0.0005 = 0.05% for a type II error.
z0.1 = 1.28z0.0005 = 3.29
n =
⌈(0.06(1.28+3.29)
2−1.9
)2⌉
=⌈(0.6 ·4.57)2
⌉= d7.52e= 8
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 121: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/121.jpg)
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Testing Normal Distributions Example Sample Size Determination t-tests
Example. Suppose a production run of a new type of bodyarmor is tested if it satisfies the specification of at mostµ0 = 1.9 in of displacement when hit with a certain type ofbullet. Compute n so that with µ ′ = 2 in (military spec:displacement no more than 2 in), normal distribution andσ = 0.06 in a test at the 10% significance level has at most achance of 0.0005 = 0.05% for a type II error.
z0.1 = 1.28
z0.0005 = 3.29
n =
⌈(0.06(1.28+3.29)
2−1.9
)2⌉
=⌈(0.6 ·4.57)2
⌉= d7.52e= 8
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 122: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/122.jpg)
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Testing Normal Distributions Example Sample Size Determination t-tests
Example. Suppose a production run of a new type of bodyarmor is tested if it satisfies the specification of at mostµ0 = 1.9 in of displacement when hit with a certain type ofbullet. Compute n so that with µ ′ = 2 in (military spec:displacement no more than 2 in), normal distribution andσ = 0.06 in a test at the 10% significance level has at most achance of 0.0005 = 0.05% for a type II error.
z0.1 = 1.28z0.0005 = 3.29
n =
⌈(0.06(1.28+3.29)
2−1.9
)2⌉
=⌈(0.6 ·4.57)2
⌉= d7.52e= 8
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 123: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/123.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. Suppose a production run of a new type of bodyarmor is tested if it satisfies the specification of at mostµ0 = 1.9 in of displacement when hit with a certain type ofbullet. Compute n so that with µ ′ = 2 in (military spec:displacement no more than 2 in), normal distribution andσ = 0.06 in a test at the 10% significance level has at most achance of 0.0005 = 0.05% for a type II error.
z0.1 = 1.28z0.0005 = 3.29
n
=
⌈(0.06(1.28+3.29)
2−1.9
)2⌉
=⌈(0.6 ·4.57)2
⌉= d7.52e= 8
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 124: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/124.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. Suppose a production run of a new type of bodyarmor is tested if it satisfies the specification of at mostµ0 = 1.9 in of displacement when hit with a certain type ofbullet. Compute n so that with µ ′ = 2 in (military spec:displacement no more than 2 in), normal distribution andσ = 0.06 in a test at the 10% significance level has at most achance of 0.0005 = 0.05% for a type II error.
z0.1 = 1.28z0.0005 = 3.29
n =
⌈(0.06(1.28+3.29)
2−1.9
)2⌉
=⌈(0.6 ·4.57)2
⌉= d7.52e= 8
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 125: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/125.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. Suppose a production run of a new type of bodyarmor is tested if it satisfies the specification of at mostµ0 = 1.9 in of displacement when hit with a certain type ofbullet. Compute n so that with µ ′ = 2 in (military spec:displacement no more than 2 in), normal distribution andσ = 0.06 in a test at the 10% significance level has at most achance of 0.0005 = 0.05% for a type II error.
z0.1 = 1.28z0.0005 = 3.29
n =
⌈(0.06(1.28+3.29)
2−1.9
)2⌉
=⌈(0.6 ·4.57)2
⌉
= d7.52e= 8
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 126: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/126.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. Suppose a production run of a new type of bodyarmor is tested if it satisfies the specification of at mostµ0 = 1.9 in of displacement when hit with a certain type ofbullet. Compute n so that with µ ′ = 2 in (military spec:displacement no more than 2 in), normal distribution andσ = 0.06 in a test at the 10% significance level has at most achance of 0.0005 = 0.05% for a type II error.
z0.1 = 1.28z0.0005 = 3.29
n =
⌈(0.06(1.28+3.29)
2−1.9
)2⌉
=⌈(0.6 ·4.57)2
⌉= d7.52e
= 8
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 127: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/127.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. Suppose a production run of a new type of bodyarmor is tested if it satisfies the specification of at mostµ0 = 1.9 in of displacement when hit with a certain type ofbullet. Compute n so that with µ ′ = 2 in (military spec:displacement no more than 2 in), normal distribution andσ = 0.06 in a test at the 10% significance level has at most achance of 0.0005 = 0.05% for a type II error.
z0.1 = 1.28z0.0005 = 3.29
n =
⌈(0.06(1.28+3.29)
2−1.9
)2⌉
=⌈(0.6 ·4.57)2
⌉= d7.52e= 8
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 128: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/128.jpg)
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Testing Normal Distributions Example Sample Size Determination t-tests
Adjusting Test Statistics for Sample Size
1. Usually, σ is not known.2. For large sample size, use the same tests, but use the
sample statistic z =x−µ0
s/√
n.
This can be done because, by the Central Limit Theorem,
for large enough n, the random variable Z =X−µ
S/√
nis
approximately normally distributed.Rule of thumb: n > 40.Computations and formulas are the same. For β andsample size, we would need to assume we know σ .
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 129: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/129.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Adjusting Test Statistics for Sample Size1. Usually, σ is not known.
2. For large sample size, use the same tests, but use the
sample statistic z =x−µ0
s/√
n.
This can be done because, by the Central Limit Theorem,
for large enough n, the random variable Z =X−µ
S/√
nis
approximately normally distributed.Rule of thumb: n > 40.Computations and formulas are the same. For β andsample size, we would need to assume we know σ .
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 130: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/130.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Adjusting Test Statistics for Sample Size1. Usually, σ is not known.2. For large sample size, use the same tests, but use the
sample statistic z =x−µ0
s/√
n.
This can be done because, by the Central Limit Theorem,
for large enough n, the random variable Z =X−µ
S/√
nis
approximately normally distributed.Rule of thumb: n > 40.Computations and formulas are the same. For β andsample size, we would need to assume we know σ .
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 131: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/131.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Adjusting Test Statistics for Sample Size1. Usually, σ is not known.2. For large sample size, use the same tests, but use the
sample statistic z =x−µ0
s/√
n.
This can be done because, by the Central Limit Theorem,
for large enough n, the random variable Z =X−µ
S/√
nis
approximately normally distributed.
Rule of thumb: n > 40.Computations and formulas are the same. For β andsample size, we would need to assume we know σ .
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 132: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/132.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Adjusting Test Statistics for Sample Size1. Usually, σ is not known.2. For large sample size, use the same tests, but use the
sample statistic z =x−µ0
s/√
n.
This can be done because, by the Central Limit Theorem,
for large enough n, the random variable Z =X−µ
S/√
nis
approximately normally distributed.Rule of thumb: n > 40.
Computations and formulas are the same. For β andsample size, we would need to assume we know σ .
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 133: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/133.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Adjusting Test Statistics for Sample Size1. Usually, σ is not known.2. For large sample size, use the same tests, but use the
sample statistic z =x−µ0
s/√
n.
This can be done because, by the Central Limit Theorem,
for large enough n, the random variable Z =X−µ
S/√
nis
approximately normally distributed.Rule of thumb: n > 40.Computations and formulas are the same.
For β andsample size, we would need to assume we know σ .
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 134: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/134.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Adjusting Test Statistics for Sample Size1. Usually, σ is not known.2. For large sample size, use the same tests, but use the
sample statistic z =x−µ0
s/√
n.
This can be done because, by the Central Limit Theorem,
for large enough n, the random variable Z =X−µ
S/√
nis
approximately normally distributed.Rule of thumb: n > 40.Computations and formulas are the same. For β andsample size, we would need to assume we know σ .
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 135: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/135.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Adjusting Test Statistics for Sample Size
3. For small samples from a normal distribution, use theone-sample t-test.Null hypothesis: H0 : µ = µ0
Test statistic: t =x−µ0
s/√
nAlternative hypotheses and rejection regions:
I Ha : µ > µ0, t ≥ tα,n−1 (upper tailed test)I Ha : µ < µ0, t ≤ tα,n−1 (lower tailed test)I Ha : µ 6= µ0, t ≤−t α
2 ,n−1 or t ≥ t α
2 ,n−1 (two tailed test)Alternative hypotheses and rejection regions are often tabulatedin statistics texts for more convenient reference.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 136: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/136.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Adjusting Test Statistics for Sample Size3. For small samples from a normal distribution, use the
one-sample t-test.
Null hypothesis: H0 : µ = µ0
Test statistic: t =x−µ0
s/√
nAlternative hypotheses and rejection regions:
I Ha : µ > µ0, t ≥ tα,n−1 (upper tailed test)I Ha : µ < µ0, t ≤ tα,n−1 (lower tailed test)I Ha : µ 6= µ0, t ≤−t α
2 ,n−1 or t ≥ t α
2 ,n−1 (two tailed test)Alternative hypotheses and rejection regions are often tabulatedin statistics texts for more convenient reference.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 137: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/137.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Adjusting Test Statistics for Sample Size3. For small samples from a normal distribution, use the
one-sample t-test.Null hypothesis: H0 : µ = µ0
Test statistic: t =x−µ0
s/√
nAlternative hypotheses and rejection regions:
I Ha : µ > µ0, t ≥ tα,n−1 (upper tailed test)I Ha : µ < µ0, t ≤ tα,n−1 (lower tailed test)I Ha : µ 6= µ0, t ≤−t α
2 ,n−1 or t ≥ t α
2 ,n−1 (two tailed test)Alternative hypotheses and rejection regions are often tabulatedin statistics texts for more convenient reference.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 138: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/138.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Adjusting Test Statistics for Sample Size3. For small samples from a normal distribution, use the
one-sample t-test.Null hypothesis: H0 : µ = µ0
Test statistic: t =x−µ0
s/√
n
Alternative hypotheses and rejection regions:I Ha : µ > µ0, t ≥ tα,n−1 (upper tailed test)I Ha : µ < µ0, t ≤ tα,n−1 (lower tailed test)I Ha : µ 6= µ0, t ≤−t α
2 ,n−1 or t ≥ t α
2 ,n−1 (two tailed test)Alternative hypotheses and rejection regions are often tabulatedin statistics texts for more convenient reference.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 139: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/139.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Adjusting Test Statistics for Sample Size3. For small samples from a normal distribution, use the
one-sample t-test.Null hypothesis: H0 : µ = µ0
Test statistic: t =x−µ0
s/√
nAlternative hypotheses and rejection regions:
I Ha : µ > µ0, t ≥ tα,n−1 (upper tailed test)I Ha : µ < µ0, t ≤ tα,n−1 (lower tailed test)I Ha : µ 6= µ0, t ≤−t α
2 ,n−1 or t ≥ t α
2 ,n−1 (two tailed test)Alternative hypotheses and rejection regions are often tabulatedin statistics texts for more convenient reference.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 140: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/140.jpg)
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Testing Normal Distributions Example Sample Size Determination t-tests
Adjusting Test Statistics for Sample Size3. For small samples from a normal distribution, use the
one-sample t-test.Null hypothesis: H0 : µ = µ0
Test statistic: t =x−µ0
s/√
nAlternative hypotheses and rejection regions:
I Ha : µ > µ0, t ≥ tα,n−1 (upper tailed test)
I Ha : µ < µ0, t ≤ tα,n−1 (lower tailed test)I Ha : µ 6= µ0, t ≤−t α
2 ,n−1 or t ≥ t α
2 ,n−1 (two tailed test)Alternative hypotheses and rejection regions are often tabulatedin statistics texts for more convenient reference.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 141: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/141.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Adjusting Test Statistics for Sample Size3. For small samples from a normal distribution, use the
one-sample t-test.Null hypothesis: H0 : µ = µ0
Test statistic: t =x−µ0
s/√
nAlternative hypotheses and rejection regions:
I Ha : µ > µ0, t ≥ tα,n−1 (upper tailed test)I Ha : µ < µ0, t ≤ tα,n−1 (lower tailed test)
I Ha : µ 6= µ0, t ≤−t α
2 ,n−1 or t ≥ t α
2 ,n−1 (two tailed test)Alternative hypotheses and rejection regions are often tabulatedin statistics texts for more convenient reference.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 142: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/142.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Adjusting Test Statistics for Sample Size3. For small samples from a normal distribution, use the
one-sample t-test.Null hypothesis: H0 : µ = µ0
Test statistic: t =x−µ0
s/√
nAlternative hypotheses and rejection regions:
I Ha : µ > µ0, t ≥ tα,n−1 (upper tailed test)I Ha : µ < µ0, t ≤ tα,n−1 (lower tailed test)I Ha : µ 6= µ0, t ≤−t α
2 ,n−1 or t ≥ t α
2 ,n−1 (two tailed test)
Alternative hypotheses and rejection regions are often tabulatedin statistics texts for more convenient reference.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 143: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/143.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Adjusting Test Statistics for Sample Size3. For small samples from a normal distribution, use the
one-sample t-test.Null hypothesis: H0 : µ = µ0
Test statistic: t =x−µ0
s/√
nAlternative hypotheses and rejection regions:
I Ha : µ > µ0, t ≥ tα,n−1 (upper tailed test)I Ha : µ < µ0, t ≤ tα,n−1 (lower tailed test)I Ha : µ 6= µ0, t ≤−t α
2 ,n−1 or t ≥ t α
2 ,n−1 (two tailed test)Alternative hypotheses and rejection regions are often tabulatedin statistics texts for more convenient reference.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 144: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/144.jpg)
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Testing Normal Distributions Example Sample Size Determination t-tests
Power and Sample Size for t-tests
1. Computing β (µ ′) for t-tests is complicated, because µ and
σ are both unknown. To get β (µ ′), compute d =|µ0−µ ′|
σwith some estimate for σ . Then use the β curves (in yourstatistics book) with the right number of degrees offreedom to get β .
2. To choose the sample size, find d and your desired β .Estimate which curve (determined by the degrees offreedom) should be at (d,β ).
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 145: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/145.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Power and Sample Size for t-tests1. Computing β (µ ′) for t-tests is complicated
, because µ and
σ are both unknown. To get β (µ ′), compute d =|µ0−µ ′|
σwith some estimate for σ . Then use the β curves (in yourstatistics book) with the right number of degrees offreedom to get β .
2. To choose the sample size, find d and your desired β .Estimate which curve (determined by the degrees offreedom) should be at (d,β ).
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 146: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/146.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Power and Sample Size for t-tests1. Computing β (µ ′) for t-tests is complicated, because µ and
σ are both unknown.
To get β (µ ′), compute d =|µ0−µ ′|
σwith some estimate for σ . Then use the β curves (in yourstatistics book) with the right number of degrees offreedom to get β .
2. To choose the sample size, find d and your desired β .Estimate which curve (determined by the degrees offreedom) should be at (d,β ).
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 147: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/147.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Power and Sample Size for t-tests1. Computing β (µ ′) for t-tests is complicated, because µ and
σ are both unknown. To get β (µ ′), compute d =|µ0−µ ′|
σwith some estimate for σ .
Then use the β curves (in yourstatistics book) with the right number of degrees offreedom to get β .
2. To choose the sample size, find d and your desired β .Estimate which curve (determined by the degrees offreedom) should be at (d,β ).
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 148: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/148.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Power and Sample Size for t-tests1. Computing β (µ ′) for t-tests is complicated, because µ and
σ are both unknown. To get β (µ ′), compute d =|µ0−µ ′|
σwith some estimate for σ . Then use the β curves (in yourstatistics book) with the right number of degrees offreedom to get β .
2. To choose the sample size, find d and your desired β .Estimate which curve (determined by the degrees offreedom) should be at (d,β ).
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 149: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/149.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Power and Sample Size for t-tests1. Computing β (µ ′) for t-tests is complicated, because µ and
σ are both unknown. To get β (µ ′), compute d =|µ0−µ ′|
σwith some estimate for σ . Then use the β curves (in yourstatistics book) with the right number of degrees offreedom to get β .
2. To choose the sample size, find d and your desired β .
Estimate which curve (determined by the degrees offreedom) should be at (d,β ).
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 150: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/150.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Power and Sample Size for t-tests1. Computing β (µ ′) for t-tests is complicated, because µ and
σ are both unknown. To get β (µ ′), compute d =|µ0−µ ′|
σwith some estimate for σ . Then use the β curves (in yourstatistics book) with the right number of degrees offreedom to get β .
2. To choose the sample size, find d and your desired β .Estimate which curve (determined by the degrees offreedom) should be at (d,β ).
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 151: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/151.jpg)
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Testing Normal Distributions Example Sample Size Determination t-tests
Example.
(DeVore, Section 8.2, nr. 32a) A sample of 12 Radondetectors of a certain type was selected, and each was exposedto 100 pCi/L of radon. The resulting readings were as follows:105.6, 90.9, 91.2, 96.9, 96.5, 91.3, 100.1, 105.0, 99.6, 107.7,103.3, 92.4. Does this data suggest that the population meanreading under these conditions differs from 100? State and testthe appropriate hypothesis at the 0.05 significance level.
Parameter: mean reading µ
H0 : µ = 100Ha : µ 6= 100 (Could use µ < 100. Definitely not µ > 100.)
Test statistic: T =x−µ0
s/√
nRejection region: For α = 0.05, |T|> t0.025,11 ≈ 2.201Values: x = 98.375, s≈ 6.109, s/
√n≈ 1.764, T =−0.921
Decision: Don’t reject.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 152: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/152.jpg)
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Testing Normal Distributions Example Sample Size Determination t-tests
Example. (DeVore, Section 8.2, nr. 32a)
A sample of 12 Radondetectors of a certain type was selected, and each was exposedto 100 pCi/L of radon. The resulting readings were as follows:105.6, 90.9, 91.2, 96.9, 96.5, 91.3, 100.1, 105.0, 99.6, 107.7,103.3, 92.4. Does this data suggest that the population meanreading under these conditions differs from 100? State and testthe appropriate hypothesis at the 0.05 significance level.
Parameter: mean reading µ
H0 : µ = 100Ha : µ 6= 100 (Could use µ < 100. Definitely not µ > 100.)
Test statistic: T =x−µ0
s/√
nRejection region: For α = 0.05, |T|> t0.025,11 ≈ 2.201Values: x = 98.375, s≈ 6.109, s/
√n≈ 1.764, T =−0.921
Decision: Don’t reject.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 153: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/153.jpg)
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Testing Normal Distributions Example Sample Size Determination t-tests
Example. (DeVore, Section 8.2, nr. 32a) A sample of 12 Radondetectors of a certain type was selected, and each was exposedto 100 pCi/L of radon.
The resulting readings were as follows:105.6, 90.9, 91.2, 96.9, 96.5, 91.3, 100.1, 105.0, 99.6, 107.7,103.3, 92.4. Does this data suggest that the population meanreading under these conditions differs from 100? State and testthe appropriate hypothesis at the 0.05 significance level.
Parameter: mean reading µ
H0 : µ = 100Ha : µ 6= 100 (Could use µ < 100. Definitely not µ > 100.)
Test statistic: T =x−µ0
s/√
nRejection region: For α = 0.05, |T|> t0.025,11 ≈ 2.201Values: x = 98.375, s≈ 6.109, s/
√n≈ 1.764, T =−0.921
Decision: Don’t reject.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 154: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/154.jpg)
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Testing Normal Distributions Example Sample Size Determination t-tests
Example. (DeVore, Section 8.2, nr. 32a) A sample of 12 Radondetectors of a certain type was selected, and each was exposedto 100 pCi/L of radon. The resulting readings were as follows
:105.6, 90.9, 91.2, 96.9, 96.5, 91.3, 100.1, 105.0, 99.6, 107.7,103.3, 92.4. Does this data suggest that the population meanreading under these conditions differs from 100? State and testthe appropriate hypothesis at the 0.05 significance level.
Parameter: mean reading µ
H0 : µ = 100Ha : µ 6= 100 (Could use µ < 100. Definitely not µ > 100.)
Test statistic: T =x−µ0
s/√
nRejection region: For α = 0.05, |T|> t0.025,11 ≈ 2.201Values: x = 98.375, s≈ 6.109, s/
√n≈ 1.764, T =−0.921
Decision: Don’t reject.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 155: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/155.jpg)
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Testing Normal Distributions Example Sample Size Determination t-tests
Example. (DeVore, Section 8.2, nr. 32a) A sample of 12 Radondetectors of a certain type was selected, and each was exposedto 100 pCi/L of radon. The resulting readings were as follows:105.6, 90.9, 91.2, 96.9, 96.5, 91.3, 100.1, 105.0, 99.6, 107.7,103.3, 92.4.
Does this data suggest that the population meanreading under these conditions differs from 100? State and testthe appropriate hypothesis at the 0.05 significance level.
Parameter: mean reading µ
H0 : µ = 100Ha : µ 6= 100 (Could use µ < 100. Definitely not µ > 100.)
Test statistic: T =x−µ0
s/√
nRejection region: For α = 0.05, |T|> t0.025,11 ≈ 2.201Values: x = 98.375, s≈ 6.109, s/
√n≈ 1.764, T =−0.921
Decision: Don’t reject.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 156: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/156.jpg)
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Testing Normal Distributions Example Sample Size Determination t-tests
Example. (DeVore, Section 8.2, nr. 32a) A sample of 12 Radondetectors of a certain type was selected, and each was exposedto 100 pCi/L of radon. The resulting readings were as follows:105.6, 90.9, 91.2, 96.9, 96.5, 91.3, 100.1, 105.0, 99.6, 107.7,103.3, 92.4. Does this data suggest that the population meanreading under these conditions differs from 100? State and testthe appropriate hypothesis at the 0.05 significance level.
Parameter: mean reading µ
H0 : µ = 100Ha : µ 6= 100 (Could use µ < 100. Definitely not µ > 100.)
Test statistic: T =x−µ0
s/√
nRejection region: For α = 0.05, |T|> t0.025,11 ≈ 2.201Values: x = 98.375, s≈ 6.109, s/
√n≈ 1.764, T =−0.921
Decision: Don’t reject.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 157: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/157.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. (DeVore, Section 8.2, nr. 32a) A sample of 12 Radondetectors of a certain type was selected, and each was exposedto 100 pCi/L of radon. The resulting readings were as follows:105.6, 90.9, 91.2, 96.9, 96.5, 91.3, 100.1, 105.0, 99.6, 107.7,103.3, 92.4. Does this data suggest that the population meanreading under these conditions differs from 100? State and testthe appropriate hypothesis at the 0.05 significance level.
Parameter: mean reading µ
H0 : µ = 100Ha : µ 6= 100 (Could use µ < 100. Definitely not µ > 100.)
Test statistic: T =x−µ0
s/√
nRejection region: For α = 0.05, |T|> t0.025,11 ≈ 2.201Values: x = 98.375, s≈ 6.109, s/
√n≈ 1.764, T =−0.921
Decision: Don’t reject.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 158: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/158.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. (DeVore, Section 8.2, nr. 32a) A sample of 12 Radondetectors of a certain type was selected, and each was exposedto 100 pCi/L of radon. The resulting readings were as follows:105.6, 90.9, 91.2, 96.9, 96.5, 91.3, 100.1, 105.0, 99.6, 107.7,103.3, 92.4. Does this data suggest that the population meanreading under these conditions differs from 100? State and testthe appropriate hypothesis at the 0.05 significance level.
Parameter: mean reading µ
H0 : µ = 100
Ha : µ 6= 100 (Could use µ < 100. Definitely not µ > 100.)
Test statistic: T =x−µ0
s/√
nRejection region: For α = 0.05, |T|> t0.025,11 ≈ 2.201Values: x = 98.375, s≈ 6.109, s/
√n≈ 1.764, T =−0.921
Decision: Don’t reject.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 159: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/159.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. (DeVore, Section 8.2, nr. 32a) A sample of 12 Radondetectors of a certain type was selected, and each was exposedto 100 pCi/L of radon. The resulting readings were as follows:105.6, 90.9, 91.2, 96.9, 96.5, 91.3, 100.1, 105.0, 99.6, 107.7,103.3, 92.4. Does this data suggest that the population meanreading under these conditions differs from 100? State and testthe appropriate hypothesis at the 0.05 significance level.
Parameter: mean reading µ
H0 : µ = 100Ha : µ 6= 100 (Could use µ < 100. Definitely not µ > 100.)
Test statistic: T =x−µ0
s/√
nRejection region: For α = 0.05, |T|> t0.025,11 ≈ 2.201Values: x = 98.375, s≈ 6.109, s/
√n≈ 1.764, T =−0.921
Decision: Don’t reject.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 160: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/160.jpg)
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Testing Normal Distributions Example Sample Size Determination t-tests
Example. (DeVore, Section 8.2, nr. 32a) A sample of 12 Radondetectors of a certain type was selected, and each was exposedto 100 pCi/L of radon. The resulting readings were as follows:105.6, 90.9, 91.2, 96.9, 96.5, 91.3, 100.1, 105.0, 99.6, 107.7,103.3, 92.4. Does this data suggest that the population meanreading under these conditions differs from 100? State and testthe appropriate hypothesis at the 0.05 significance level.
Parameter: mean reading µ
H0 : µ = 100Ha : µ 6= 100 (Could use µ < 100. Definitely not µ > 100.)
Test statistic: T =x−µ0
s/√
n
Rejection region: For α = 0.05, |T|> t0.025,11 ≈ 2.201Values: x = 98.375, s≈ 6.109, s/
√n≈ 1.764, T =−0.921
Decision: Don’t reject.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 161: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/161.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. (DeVore, Section 8.2, nr. 32a) A sample of 12 Radondetectors of a certain type was selected, and each was exposedto 100 pCi/L of radon. The resulting readings were as follows:105.6, 90.9, 91.2, 96.9, 96.5, 91.3, 100.1, 105.0, 99.6, 107.7,103.3, 92.4. Does this data suggest that the population meanreading under these conditions differs from 100? State and testthe appropriate hypothesis at the 0.05 significance level.
Parameter: mean reading µ
H0 : µ = 100Ha : µ 6= 100 (Could use µ < 100. Definitely not µ > 100.)
Test statistic: T =x−µ0
s/√
nRejection region: For α = 0.05, |T|> t0.025,11 ≈ 2.201
Values: x = 98.375, s≈ 6.109, s/√
n≈ 1.764, T =−0.921Decision: Don’t reject.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 162: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/162.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. (DeVore, Section 8.2, nr. 32a) A sample of 12 Radondetectors of a certain type was selected, and each was exposedto 100 pCi/L of radon. The resulting readings were as follows:105.6, 90.9, 91.2, 96.9, 96.5, 91.3, 100.1, 105.0, 99.6, 107.7,103.3, 92.4. Does this data suggest that the population meanreading under these conditions differs from 100? State and testthe appropriate hypothesis at the 0.05 significance level.
Parameter: mean reading µ
H0 : µ = 100Ha : µ 6= 100 (Could use µ < 100. Definitely not µ > 100.)
Test statistic: T =x−µ0
s/√
nRejection region: For α = 0.05, |T|> t0.025,11 ≈ 2.201Values
: x = 98.375, s≈ 6.109, s/√
n≈ 1.764, T =−0.921Decision: Don’t reject.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 163: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/163.jpg)
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Testing Normal Distributions Example Sample Size Determination t-tests
Example. (DeVore, Section 8.2, nr. 32a) A sample of 12 Radondetectors of a certain type was selected, and each was exposedto 100 pCi/L of radon. The resulting readings were as follows:105.6, 90.9, 91.2, 96.9, 96.5, 91.3, 100.1, 105.0, 99.6, 107.7,103.3, 92.4. Does this data suggest that the population meanreading under these conditions differs from 100? State and testthe appropriate hypothesis at the 0.05 significance level.
Parameter: mean reading µ
H0 : µ = 100Ha : µ 6= 100 (Could use µ < 100. Definitely not µ > 100.)
Test statistic: T =x−µ0
s/√
nRejection region: For α = 0.05, |T|> t0.025,11 ≈ 2.201Values: x = 98.375
, s≈ 6.109, s/√
n≈ 1.764, T =−0.921Decision: Don’t reject.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 164: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/164.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. (DeVore, Section 8.2, nr. 32a) A sample of 12 Radondetectors of a certain type was selected, and each was exposedto 100 pCi/L of radon. The resulting readings were as follows:105.6, 90.9, 91.2, 96.9, 96.5, 91.3, 100.1, 105.0, 99.6, 107.7,103.3, 92.4. Does this data suggest that the population meanreading under these conditions differs from 100? State and testthe appropriate hypothesis at the 0.05 significance level.
Parameter: mean reading µ
H0 : µ = 100Ha : µ 6= 100 (Could use µ < 100. Definitely not µ > 100.)
Test statistic: T =x−µ0
s/√
nRejection region: For α = 0.05, |T|> t0.025,11 ≈ 2.201Values: x = 98.375, s≈ 6.109
, s/√
n≈ 1.764, T =−0.921Decision: Don’t reject.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 165: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/165.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. (DeVore, Section 8.2, nr. 32a) A sample of 12 Radondetectors of a certain type was selected, and each was exposedto 100 pCi/L of radon. The resulting readings were as follows:105.6, 90.9, 91.2, 96.9, 96.5, 91.3, 100.1, 105.0, 99.6, 107.7,103.3, 92.4. Does this data suggest that the population meanreading under these conditions differs from 100? State and testthe appropriate hypothesis at the 0.05 significance level.
Parameter: mean reading µ
H0 : µ = 100Ha : µ 6= 100 (Could use µ < 100. Definitely not µ > 100.)
Test statistic: T =x−µ0
s/√
nRejection region: For α = 0.05, |T|> t0.025,11 ≈ 2.201Values: x = 98.375, s≈ 6.109, s/
√n≈ 1.764
, T =−0.921Decision: Don’t reject.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 166: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/166.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. (DeVore, Section 8.2, nr. 32a) A sample of 12 Radondetectors of a certain type was selected, and each was exposedto 100 pCi/L of radon. The resulting readings were as follows:105.6, 90.9, 91.2, 96.9, 96.5, 91.3, 100.1, 105.0, 99.6, 107.7,103.3, 92.4. Does this data suggest that the population meanreading under these conditions differs from 100? State and testthe appropriate hypothesis at the 0.05 significance level.
Parameter: mean reading µ
H0 : µ = 100Ha : µ 6= 100 (Could use µ < 100. Definitely not µ > 100.)
Test statistic: T =x−µ0
s/√
nRejection region: For α = 0.05, |T|> t0.025,11 ≈ 2.201Values: x = 98.375, s≈ 6.109, s/
√n≈ 1.764, T =−0.921
Decision: Don’t reject.
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 167: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/167.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. (DeVore, Section 8.2, nr. 32a) A sample of 12 Radondetectors of a certain type was selected, and each was exposedto 100 pCi/L of radon. The resulting readings were as follows:105.6, 90.9, 91.2, 96.9, 96.5, 91.3, 100.1, 105.0, 99.6, 107.7,103.3, 92.4. Does this data suggest that the population meanreading under these conditions differs from 100? State and testthe appropriate hypothesis at the 0.05 significance level.
Parameter: mean reading µ
H0 : µ = 100Ha : µ 6= 100 (Could use µ < 100. Definitely not µ > 100.)
Test statistic: T =x−µ0
s/√
nRejection region: For α = 0.05, |T|> t0.025,11 ≈ 2.201Values: x = 98.375, s≈ 6.109, s/
√n≈ 1.764, T =−0.921
Decision: Don’t reject.Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 168: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/168.jpg)
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Testing Normal Distributions Example Sample Size Determination t-tests
Example. (DeVore, Section 8.2, nr. 32a) A sample of 12 Radondetectors of a certain type was selected, and each was exposedto 100 pCi/L of radon.
Suppose that prior to the experiment, avalue of σ = 7.5 pCi/L had been assumed. How manydeterminations would then have been appropriate to obtainβ = 0.1 for the alternative µ = 95?
d =|µ ′−µ0|
σ=
23
, α = 0.05
n−1≈ 39 (tables are wonderful)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 169: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/169.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. (DeVore, Section 8.2, nr. 32a) A sample of 12 Radondetectors of a certain type was selected, and each was exposedto 100 pCi/L of radon. Suppose that prior to the experiment, avalue of σ = 7.5 pCi/L had been assumed.
How manydeterminations would then have been appropriate to obtainβ = 0.1 for the alternative µ = 95?
d =|µ ′−µ0|
σ=
23
, α = 0.05
n−1≈ 39 (tables are wonderful)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 170: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/170.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. (DeVore, Section 8.2, nr. 32a) A sample of 12 Radondetectors of a certain type was selected, and each was exposedto 100 pCi/L of radon. Suppose that prior to the experiment, avalue of σ = 7.5 pCi/L had been assumed. How manydeterminations would then have been appropriate to obtainβ = 0.1 for the alternative µ = 95?
d =|µ ′−µ0|
σ=
23
, α = 0.05
n−1≈ 39 (tables are wonderful)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 171: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/171.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. (DeVore, Section 8.2, nr. 32a) A sample of 12 Radondetectors of a certain type was selected, and each was exposedto 100 pCi/L of radon. Suppose that prior to the experiment, avalue of σ = 7.5 pCi/L had been assumed. How manydeterminations would then have been appropriate to obtainβ = 0.1 for the alternative µ = 95?
d =|µ ′−µ0|
σ
=23
, α = 0.05
n−1≈ 39 (tables are wonderful)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 172: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/172.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. (DeVore, Section 8.2, nr. 32a) A sample of 12 Radondetectors of a certain type was selected, and each was exposedto 100 pCi/L of radon. Suppose that prior to the experiment, avalue of σ = 7.5 pCi/L had been assumed. How manydeterminations would then have been appropriate to obtainβ = 0.1 for the alternative µ = 95?
d =|µ ′−µ0|
σ=
23
, α = 0.05
n−1≈ 39 (tables are wonderful)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 173: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/173.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. (DeVore, Section 8.2, nr. 32a) A sample of 12 Radondetectors of a certain type was selected, and each was exposedto 100 pCi/L of radon. Suppose that prior to the experiment, avalue of σ = 7.5 pCi/L had been assumed. How manydeterminations would then have been appropriate to obtainβ = 0.1 for the alternative µ = 95?
d =|µ ′−µ0|
σ=
23
, α = 0.05
n−1≈ 39 (tables are wonderful)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 174: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/174.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. (DeVore, Section 8.2, nr. 32a) A sample of 12 Radondetectors of a certain type was selected, and each was exposedto 100 pCi/L of radon. Suppose that prior to the experiment, avalue of σ = 7.5 pCi/L had been assumed. How manydeterminations would then have been appropriate to obtainβ = 0.1 for the alternative µ = 95?
d =|µ ′−µ0|
σ=
23
, α = 0.05
n−1≈ 39
(tables are wonderful)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means
![Page 175: Hypothesis Tests for Population Means...logo1 Testing Normal DistributionsExampleSample Size Determination t-tests Hypothesis Tests for Population Means Bernd Schroder¨ Bernd Schroder¨](https://reader035.vdocuments.site/reader035/viewer/2022071107/5fe13af05d64094d0c41dccd/html5/thumbnails/175.jpg)
logo1
Testing Normal Distributions Example Sample Size Determination t-tests
Example. (DeVore, Section 8.2, nr. 32a) A sample of 12 Radondetectors of a certain type was selected, and each was exposedto 100 pCi/L of radon. Suppose that prior to the experiment, avalue of σ = 7.5 pCi/L had been assumed. How manydeterminations would then have been appropriate to obtainβ = 0.1 for the alternative µ = 95?
d =|µ ′−µ0|
σ=
23
, α = 0.05
n−1≈ 39 (tables are wonderful)
Bernd Schroder Louisiana Tech University, College of Engineering and Science
Hypothesis Tests for Population Means