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Transcript of Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means,...
![Page 1: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/1.jpg)
Chap 9-1
Two-Sample Tests
![Page 2: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/2.jpg)
Chap 9-2
Two Sample Tests
Two Sample Tests
Population Means,
Independent Samples
Means, Related Samples
Population Variances
Group 1 vs. independent Group 2
Same group before vs. after treatment
Variance 1 vs.Variance 2
Examples:
Population Proportions
Proportion 1 vs. Proportion 2
![Page 3: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/3.jpg)
Chap 9-3
Difference Between Two Means
Population means, independent
samples
σ1 and σ2 known
σ1 and σ2 unknown
Goal: Test hypotheses or form a confidence interval for the difference between two population means, μ1 – μ2
The point estimate for the difference is
X1 – X2
*
![Page 4: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/4.jpg)
Chap 9-4
Independent Samples
Population means, independent
samples
Different data sources Unrelated Independent
Sample selected from one population has no effect on the sample selected from the other population
Use the difference between 2 sample means
Use Z test or pooled variance t test
*
σ1 and σ2 known
σ1 and σ2 unknown
![Page 5: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/5.jpg)
Chap 9-5
Difference Between Two Means
Population means, independent
samples
σ1 and σ2 known
σ1 and σ2 unknown
*
Use a Z test statistic
Use S to estimate unknown σ , use a t test statistic and pooled standard deviation
![Page 6: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/6.jpg)
Chap 9-6
Population means, independent
samples
σ1 and σ2 known
σ1 and σ2 Known
Assumptions:
Samples are randomly and independently drawn
population distributions are normal or both sample sizes are 30
Population standard deviations are known
*σ1 and σ2 unknown
![Page 7: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/7.jpg)
Chap 9-7
Population means, independent
samples
σ1 and σ2 known …and the standard error of
X1 – X2 is
When σ1 and σ2 are known and both populations are normal or both sample sizes are at least 30, the test statistic is a Z-value…
2
22
1
21
XX n
σ
n
σσ
21
(continued)
σ1 and σ2 Known
*σ1 and σ2 unknown
![Page 8: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/8.jpg)
Chap 9-8
Population means, independent
samples
σ1 and σ2 known
2
22
1
21
2121
nσ
nσ
μμXXZ
The test statistic for μ1 – μ2 is:
σ1 and σ2 Known
*σ1 and σ2 unknown
(continued)
![Page 9: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/9.jpg)
Chap 9-9
Hypothesis Tests forTwo Population Means
Lower-tail test:
H0: μ1 μ2
H1: μ1 < μ2
i.e.,
H0: μ1 – μ2 0H1: μ1 – μ2 < 0
Upper-tail test:
H0: μ1 ≤ μ2
H1: μ1 > μ2
i.e.,
H0: μ1 – μ2 ≤ 0H1: μ1 – μ2 > 0
Two-tail test:
H0: μ1 = μ2
H1: μ1 ≠ μ2
i.e.,
H0: μ1 – μ2 = 0H1: μ1 – μ2 ≠ 0
Two Population Means, Independent Samples
![Page 10: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/10.jpg)
Chap 9-10
Two Population Means, Independent Samples
Lower-tail test:
H0: μ1 – μ2 0H1: μ1 – μ2 < 0
Upper-tail test:
H0: μ1 – μ2 ≤ 0H1: μ1 – μ2 > 0
Two-tail test:
H0: μ1 – μ2 = 0H1: μ1 – μ2 ≠ 0
a a/2 a/2a
-za -za/2za za/2
Reject H0 if Z < -Za Reject H0 if Z > Za Reject H0 if Z < -Za/2
or Z > Za/2
Hypothesis tests for μ1 – μ2
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Chap 9-11
Population means, independent
samples
σ1 and σ2 known
2
22
1
21
21n
σ
n
σZXX
The confidence interval for μ1 – μ2 is:
Confidence Interval, σ1 and σ2 Known
*σ1 and σ2 unknown
![Page 12: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/12.jpg)
Chap 9-12
Population means, independent
samples
σ1 and σ2 known
σ1 and σ2 Unknown
Assumptions:
Samples are randomly and independently drawn
Populations are normally distributed or both sample sizes are at least 30
Population variances are unknown but assumed equal
*σ1 and σ2 unknown
![Page 13: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/13.jpg)
Chap 9-13
Population means, independent
samples
σ1 and σ2 known
σ1 and σ2 Unknown(continued)
*σ1 and σ2 unknown
Forming interval estimates:
The population variances are assumed equal, so use the two sample standard deviations and pool them to estimate σ
the test statistic is a t value with (n1 + n2 – 2) degrees of freedom
![Page 14: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/14.jpg)
Chap 9-14
Population means, independent
samples
σ1 and σ2 known
σ1 and σ2 Unknown
The pooled standard deviation is
(continued)
1)n()1(n
S1nS1nS
21
222
211
p
*σ1 and σ2 unknown
![Page 15: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/15.jpg)
Chap 9-15
Population means, independent
samples
σ1 and σ2 known
σ1 and σ2 Unknown
Where t has (n1 + n2 – 2) d.f.,
and
21
2p
2121
n1
n1
S
μμXXt
The test statistic for μ1 – μ2 is:
*σ1 and σ2 unknown
1)n()1(n
S1nS1nS
21
222
2112
p
(continued)
![Page 16: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/16.jpg)
Chap 9-16
Population means, independent
samples
σ1 and σ2 known
21
2p2-nn21
n
1
n
1StXX
21
The confidence interval for μ1 – μ2 is:
Where
1)n()1(n
S1nS1nS
21
222
2112
p
*σ1 and σ2 unknown
Confidence Interval, σ1 and σ2 Unknown
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Chap 9-17
Pooled Sp t Test: Example
You are a financial analyst for a brokerage firm. Is there a difference in dividend yield between stocks listed on the NYSE & NASDAQ? You collect the following data:
NYSE NASDAQNumber 21 25Sample mean 3.27 2.53Sample std dev 1.30 1.16
Assuming both populations are approximately normal with equal variances, isthere a difference in average yield ( = 0.05)?
![Page 18: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/18.jpg)
Chap 9-18
Calculating the Test Statistic
1.5021
1)25(1)-(21
1.161251.30121
1)n()1(n
S1nS1nS
22
21
222
2112
p
2.040
251
211
5021.1
02.533.27
n1
n1
S
μμXXt
21
2p
2121
The test statistic is:
![Page 19: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/19.jpg)
Chap 9-19
Solution
H0: μ1 - μ2 = 0 i.e. (μ1 = μ2)
H1: μ1 - μ2 ≠ 0 i.e. (μ1 ≠ μ2)
= 0.05
df = 21 + 25 - 2 = 44Critical Values: t = ± 2.0154
Test Statistic: Decision:
Conclusion:
Reject H0 at a = 0.05
There is evidence of a difference in means.
t0 2.0154-2.0154
.025
Reject H0 Reject H0
.025
2.040
2.040
251
211
5021.1
2.533.27t
![Page 20: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/20.jpg)
Chap 9-20
Related Samples
Tests Means of 2 Related Populations Paired or matched samples Repeated measures (before/after) Use difference between paired values:
Eliminates Variation Among Subjects Assumptions:
Both Populations Are Normally Distributed Or, if Not Normal, use large samples
Related samples
D = X1 - X2
![Page 21: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/21.jpg)
Chap 9-21
Mean Difference, σD Known
The ith paired difference is Di , whereRelated samples
Di = X1i - X2i
The point estimate for the population mean paired difference is D : n
DD
n
1ii
Suppose the population standard deviation of the difference scores, σD, is known
n is the number of pairs in the paired sample
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Chap 9-22
The test statistic for the mean difference is a Z value:Paired
samples
n
σμD
ZD
D
Mean Difference, σD Known(continued)
WhereμD = hypothesized mean differenceσD = population standard dev. of differencesn = the sample size (number of pairs)
![Page 23: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/23.jpg)
Chap 9-23
Confidence Interval, σD Known
The confidence interval for D isPaired samples
n
σZD D
Where n = the sample size
(number of pairs in the paired sample)
![Page 24: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/24.jpg)
Chap 9-24
If σD is unknown, we can estimate the unknown population standard deviation with a sample standard deviation:
Related samples
1n
)D(DS
n
1i
2i
D
The sample standard deviation is
Mean Difference, σD Unknown
![Page 25: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/25.jpg)
Chap 9-25
The test statistic for D is now a t statistic, with n-1 d.f.:Paired
samples
1n
)D(DS
n
1i
2i
D
n
SμD
tD
D
Where t has n - 1 d.f.
and SD is:
Mean Difference, σD Unknown(continued)
![Page 26: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/26.jpg)
Chap 9-26
The confidence interval for D isPaired samples
1n
)D(DS
n
1i
2i
D
n
StD D
1n
where
Confidence Interval, σD Unknown
![Page 27: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/27.jpg)
Chap 9-27
Lower-tail test:
H0: μD 0H1: μD < 0
Upper-tail test:
H0: μD ≤ 0H1: μD > 0
Two-tail test:
H0: μD = 0H1: μD ≠ 0
Paired Samples
Hypothesis Testing for Mean Difference, σD Unknown
a a/2 a/2a
-ta -ta/2ta ta/2
Reject H0 if t < -ta Reject H0 if t > ta Reject H0 if t < -t /2a
or t > t /2a Where t has n - 1 d.f.
![Page 28: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/28.jpg)
Chap 9-28
Assume you send your salespeople to a “customer service” training workshop. Is the training effective? You collect the following data:
Paired Samples Example
Number of Complaints: (2) - (1)Salesperson Before (1) After (2) Difference, Di
C.B. 6 4 - 2 T.F. 20 6 -14 M.H. 3 2 - 1 R.K. 0 0 0 M.O. 4 0 - 4 -21
D = Di
n
5.67
1n
)D(DS
2i
D
= -4.2
![Page 29: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/29.jpg)
Chap 9-29
Has the training made a difference in the number of complaints (at the 0.01 level)?
- 4.2D =
1.6655.67/
04.2
n/S
μDt
D
D
H0: μD = 0H1: μD 0
Test Statistic:
Critical Value = ± 4.604 d.f. = n - 1 = 4
Reject
/2
- 4.604 4.604
Decision: Do not reject H0
(t stat is not in the reject region)
Conclusion: There is not a significant change in the number of complaints.
Paired Samples: Solution
Reject
/2
- 1.66 = .01
![Page 30: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/30.jpg)
Chap 9-30
Two Population Proportions
Goal: test a hypothesis or form a confidence interval for the difference between two population proportions,
p1 – p2
The point estimate for the difference is
Population proportions
Assumptions: n1p1 5 , n1(1-p1) 5
n2p2 5 , n2(1-p2) 5
21 ss pp
![Page 31: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/31.jpg)
Chap 9-31
Two Population Proportions
Population proportions
21
21
nn
XXp
The pooled estimate for the overall proportion is:
where X1 and X2 are the numbers from samples 1 and 2 with the characteristic of interest
Since we begin by assuming the null hypothesis is true, we assume p1 = p2
and pool the two ps estimates
![Page 32: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/32.jpg)
Chap 9-32
Two Population Proportions
Population proportions
21
21ss
n1
n1
)p1(p
ppppZ 21
The test statistic for p1 – p2 is a Z statistic:
(continued)
2
2s
1
1s
21
21
n
Xp ,
n
Xp ,
nn
XXp
21
where
![Page 33: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/33.jpg)
Chap 9-33
Confidence Interval forTwo Population Proportions
Population proportions
2
ss
1
ssss n
)p(1p
n
)p(1pZpp 2211
21
The confidence interval for p1 – p2 is:
![Page 34: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/34.jpg)
Chap 9-34
Hypothesis Tests forTwo Population Proportions
Population proportions
Lower-tail test:
H0: p1 p2
H1: p1 < p2
i.e.,
H0: p1 – p2 0H1: p1 – p2 < 0
Upper-tail test:
H0: p1 ≤ p2
H1: p1 > p2
i.e.,
H0: p1 – p2 ≤ 0H1: p1 – p2 > 0
Two-tail test:
H0: p1 = p2
H1: p1 ≠ p2
i.e.,
H0: p1 – p2 = 0H1: p1 – p2 ≠ 0
![Page 35: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/35.jpg)
Chap 9-35
Hypothesis Tests forTwo Population Proportions
Population proportions
Lower-tail test:
H0: p1 – p2 0H1: p1 – p2 < 0
Upper-tail test:
H0: p1 – p2 ≤ 0H1: p1 – p2 > 0
Two-tail test:
H0: p1 – p2 = 0H1: p1 – p2 ≠ 0
a a/2 a/2a
-za -za/2za za/2
Reject H0 if Z < -Za Reject H0 if Z > Za Reject H0 if Z < -Z /2a
or Z > Z /2a
(continued)
![Page 36: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/36.jpg)
Chap 9-36
Example: Two population Proportions
Is there a significant difference between the proportion of men and the proportion of women who will vote Yes on Proposition A?
In a random sample, 36 of 72 men and 31 of 50 women indicated they would vote Yes
Test at the .05 level of significance
![Page 37: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/37.jpg)
Chap 9-37
The hypothesis test is:H0: p1 – p2 = 0 (the two proportions are equal)
H1: p1 – p2 ≠ 0 (there is a significant difference between proportions)
The sample proportions are: Men: ps1 = 36/72 = .50
Women: ps2 = 31/50 = .62
.549122
67
5072
3136
nn
XXp
21
21
The pooled estimate for the overall proportion is:
Example: Two population Proportions
(continued)
![Page 38: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/38.jpg)
Chap 9-38
The test statistic for p1 – p2 is:
Example: Two population Proportions
(continued)
.025
-1.96 1.96
.025
-1.31
Decision: Do not reject H0
Conclusion: There is not significant evidence of a difference in proportions who will vote yes between men and women.
1.31
501
721
.549)(1.549
0.62.50
n1
n1
)p(1p
ppppz
21
21ss 21
Reject H0 Reject H0
Critical Values = ±1.96For = .05
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Chap 9-39
Hypothesis Tests for Variances
Tests for TwoPopulation Variances
F test statistic
H0: σ12 = σ2
2
H1: σ12 ≠ σ2
2Two-tail test
Lower-tail test
Upper-tail test
H0: σ12 σ2
2
H1: σ12 < σ2
2
H0: σ12 ≤ σ2
2
H1: σ12 > σ2
2
*
![Page 40: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/40.jpg)
Chap 9-40
Hypothesis Tests for Variances
Tests for TwoPopulation Variances
F test statistic22
21
S
SF
The F test statistic is:
= Variance of Sample 1 n1 - 1 = numerator degrees of freedom
n2 - 1 = denominator degrees of freedom = Variance of Sample 2
21S
22S
*
(continued)
![Page 41: Chap 9-1 Two-Sample Tests. Chap 9-2 Two Sample Tests Population Means, Independent Samples Means, Related Samples Population Variances Group 1 vs. independent.](https://reader035.fdocuments.us/reader035/viewer/2022062308/56649ef95503460f94c0af3c/html5/thumbnails/41.jpg)
Chap 9-41
The F critical value is found from the F table
The are two appropriate degrees of freedom: numerator and denominator
In the F table, numerator degrees of freedom determine the column
denominator degrees of freedom determine the row
The F Distribution
where df1 = n1 – 1 ; df2 = n2 – 122
21
S
SF
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Chap 9-42
F 0
Finding the Rejection Region
L22
21
U22
21
FS
SF
FS
SF
rejection region for a two-tail test is:
FL Reject H0
Do not reject H0
F 0
FU Reject H0Do not
reject H0
F 0 /2
Reject H0Do not reject H0 FU
H0: σ12 = σ2
2
H1: σ12 ≠ σ2
2
H0: σ12 σ2
2
H1: σ12 < σ2
2
H0: σ12 ≤ σ2
2
H1: σ12 > σ2
2
FL
/2
Reject H0
Reject H0 if F < FL
Reject H0 if F > FU
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Chap 9-43
Finding the Rejection Region
F 0 /2
Reject H0Do not reject H0 FU
H0: σ12 = σ2
2
H1: σ12 ≠ σ2
2
FL
/2
Reject H0
(continued)
2. Find FL using the formula:
Where FU* is from the F table with
n2 – 1 numerator and n1 – 1
denominator degrees of freedom (i.e., switch the d.f. from FU)
*UL F
1F 1. Find FU from the F table
for n1 – 1 numerator and
n2 – 1 denominator
degrees of freedom
To find the critical F values:
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Chap 9-44
F Test: An Example
You are a financial analyst for a brokerage firm. You want to compare dividend yields between stocks listed on the NYSE & NASDAQ. You collect the following data: NYSE NASDAQNumber 21 25Mean 3.27 2.53Std dev 1.30 1.16
Is there a difference in the variances between the NYSE & NASDAQ at the = 0.05 level?
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Chap 9-45
F Test: Example Solution
Form the hypothesis test:
H0: σ21 – σ2
2 = 0 (there is no difference between variances)
H1: σ21 – σ2
2 ≠ 0 (there is a difference between variances)
Numerator: n1 – 1 = 21 – 1 = 20 d.f.
Denominator: n2 – 1 = 25 – 1 = 24 d.f.
FU = F.025, 20, 24 = 2.33
Find the F critical values for = .05:
Numerator: n2 – 1 = 25 – 1 = 24 d.f.
Denominator: n1 – 1 = 21 – 1 = 20 d.f.
FL = 1/F.025, 24, 20 = 1/2.41
= .41
FU: FL:
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Chap 9-46
The test statistic is:
0
256.116.1
30.1
S
SF
2
2
22
21
/2 = .025
FU=2.33Reject H0Do not
reject H0
H0: σ12 = σ2
2
H1: σ12 ≠ σ2
2
F Test: Example Solution
F = 1.256 is not in the rejection region, so we do not reject H0
(continued)
Conclusion: There is not sufficient evidence of a difference in variances at = .05
FL=0.41
/2 = .025
Reject H0
F