egr 252 ch. 9 lecture2 jmb spring 2011 slide 1 estimating the difference between two means given...
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![Page 1: EGR 252 Ch. 9 Lecture2 JMB Spring 2011 Slide 1 Estimating the Difference Between Two Means Given two independent random samples, a point estimate the](https://reader038.vdocuments.site/reader038/viewer/2022100509/56649f515503460f94c74ac6/html5/thumbnails/1.jpg)
EGR 252 Ch. 9 Lecture2 JMB Spring 2011 Slide 1
Estimating the Difference Between Two Means
Given two independent random samples, a point estimate the difference between μ1 and μ2 is given by the statistic
We can build a confidence interval for μ1 - μ2 (given σ1
2 and σ22 known) as follows:
21 xx
2
22
1
21
2/21212
22
1
21
2/21 )()(nn
zxxnn
zxx
![Page 2: EGR 252 Ch. 9 Lecture2 JMB Spring 2011 Slide 1 Estimating the Difference Between Two Means Given two independent random samples, a point estimate the](https://reader038.vdocuments.site/reader038/viewer/2022100509/56649f515503460f94c74ac6/html5/thumbnails/2.jpg)
EGR 252 Ch. 9 Lecture2 JMB Spring 2011 Slide 2
Example 9.9 Page 289
Find a 96% Confidence Interval xbarA = 36 mpg σA = 6 nA = 50 xbarB = 42 mpg σB = 8 nB = 75 α=0.04 α/2 =0.02 Z0.02 = 2.055
Calculations:
6 – 2.055 sqrt(64/75 + 36/50) < μB - μA < 6 + 2.055 sqrt(64/75 + 36/50)
Results:
3.4224 < μB - μA < 8.5776
96% CI is (3.4224, 8.5776)
![Page 3: EGR 252 Ch. 9 Lecture2 JMB Spring 2011 Slide 1 Estimating the Difference Between Two Means Given two independent random samples, a point estimate the](https://reader038.vdocuments.site/reader038/viewer/2022100509/56649f515503460f94c74ac6/html5/thumbnails/3.jpg)
EGR 252 Ch. 9 Lecture2 JMB Spring 2011 Slide 3
Differences Between Two Means: Variances Unknown
Case 1: σ12 and σ2
2 unknown but “equal”
Page 291
Where,
Note v = n1 + n2 -2
212,2/2121
212,2/21
11)()(
11)()(
2121 nnStxx
nnStxx pnnpnn
2
)1()1(
21
222
2112
nn
SnSnSp
![Page 4: EGR 252 Ch. 9 Lecture2 JMB Spring 2011 Slide 1 Estimating the Difference Between Two Means Given two independent random samples, a point estimate the](https://reader038.vdocuments.site/reader038/viewer/2022100509/56649f515503460f94c74ac6/html5/thumbnails/4.jpg)
EGR 252 Ch. 9 Lecture2 JMB Spring 2011 Slide 4
Differences Between Two Means: Variances Unknown (Page 293)
Case 2: σ12 and σ2
2 unknown and not equal
Where,
WOW!
2
22
1
21
,2/21212
22
1
21
,2/21 )()(n
s
n
stxx
n
s
n
stxx
1/
1/
)//(
2
2
222
1
2
121
22
221
21
nnS
nnS
nSnS
![Page 5: EGR 252 Ch. 9 Lecture2 JMB Spring 2011 Slide 1 Estimating the Difference Between Two Means Given two independent random samples, a point estimate the](https://reader038.vdocuments.site/reader038/viewer/2022100509/56649f515503460f94c74ac6/html5/thumbnails/5.jpg)
EGR 252 Ch. 9 Lecture2 JMB Spring 2011 Slide 5
Estimating μ1 – μ2
Example (σ12 and σ2
2 known) :A farm equipment manufacturer wants to compare the average daily downtime of two sheet-metal stamping machines located in two different factories. Investigation of company records for 100 randomly selected days on each of the two machines gave the following results:
x1 = 12 minutes x2 = 10 minutes
s12 = 12 s2
2 = 8
n1 = n2 = 100
Construct a 95% C.I. for μ1 – μ2
![Page 6: EGR 252 Ch. 9 Lecture2 JMB Spring 2011 Slide 1 Estimating the Difference Between Two Means Given two independent random samples, a point estimate the](https://reader038.vdocuments.site/reader038/viewer/2022100509/56649f515503460f94c74ac6/html5/thumbnails/6.jpg)
EGR 252 Ch. 9 Lecture2 JMB Spring 2011 Slide 6
Solution
95% CI Z.025 = 1.96
(12-10) + 1.96*sqrt(12/100 + 8/100) = 2 + 0.8765
1.1235 < μ1 – μ2 < 2.8765
Interpretation: If CI contains 0, then μ1 – μ2 may be either positive or negative (can’t say that one is larger than the other); however, since the CI for μ1 – μ2 is positive, we conclude μ1 must be larger than μ2 .
2
22
1
21
2/21212
22
1
21
2/21 )()(nn
zxxnn
zxx
![Page 7: EGR 252 Ch. 9 Lecture2 JMB Spring 2011 Slide 1 Estimating the Difference Between Two Means Given two independent random samples, a point estimate the](https://reader038.vdocuments.site/reader038/viewer/2022100509/56649f515503460f94c74ac6/html5/thumbnails/7.jpg)
EGR 252 Ch. 9 Lecture2 JMB Spring 2011 Slide 7
μ1 – μ2 : σi2 Unknown
Example (σ12 and σ2
2 unknown but “equal”):Suppose the farm equipment manufacturer was unable to gather data for 100 days. Using the data they were able to gather, they would still like to compare the downtime for the two machines. The data they gathered is as follows:
x1 = 12 minutes x2 = 10 minutes
s12 = 12 s2
2 = 8
n1 = 18 n2 = 14
Construct a 95% C.I. for μ1 – μ2
![Page 8: EGR 252 Ch. 9 Lecture2 JMB Spring 2011 Slide 1 Estimating the Difference Between Two Means Given two independent random samples, a point estimate the](https://reader038.vdocuments.site/reader038/viewer/2022100509/56649f515503460f94c74ac6/html5/thumbnails/8.jpg)
EGR 252 Ch. 9 Lecture2 JMB Spring 2011 Slide 8
SolutionGoverning Equations:
Calculations:
t0.025,30 = 2.042 sp2 = ((17*12)+(13*8))/30 = 10.267 sp = 3.204
2 + 2.042*3.204*sqrt(1/18 + 1/14) = 2 + 2.3314
-0.3314 < μ1 – μ2 < 4.3314
Interpretation:
Since this CI contains 0, we can’t conclude μ1 > μ2 .
2
)1()1(
21
222
2112
nn
SnSnS p
212,2/2121
212,2/21
11)(
11)(
2121 nnStxx
nnStxx pnnpnn
![Page 9: EGR 252 Ch. 9 Lecture2 JMB Spring 2011 Slide 1 Estimating the Difference Between Two Means Given two independent random samples, a point estimate the](https://reader038.vdocuments.site/reader038/viewer/2022100509/56649f515503460f94c74ac6/html5/thumbnails/9.jpg)
EGR 252 Ch. 9 Lecture2 JMB Spring 2011 Slide 9
Paired Observations
Suppose we are evaluating observations that are not independent …
For example, suppose a teacher wants to compare results of a pretest and posttest administered to the same group of students.
Paired-observation or Paired-sample test …Example: murder rates in two consecutive years for several US cities. Construct a 90% confidence interval around the difference in consecutive years.
![Page 10: EGR 252 Ch. 9 Lecture2 JMB Spring 2011 Slide 1 Estimating the Difference Between Two Means Given two independent random samples, a point estimate the](https://reader038.vdocuments.site/reader038/viewer/2022100509/56649f515503460f94c74ac6/html5/thumbnails/10.jpg)
EGR 252 Ch. 9 Lecture2 JMB Spring 2011 Slide 10
Calculation of CI for Paired DataExample 9.12 We have 20 pairs of values. We calculate the difference for
each pair. We calculate the sample standard deviation for the difference values. The appropriate equations are:
μd = μ1 – μ2
Based on the data in Table 9.1 Dbar = -0.87 Sd = 2.9773 n=20
We determine that a (1-0.05)100% CI for μd is: -2.2634 < μd < 0.5234
1
)( 2
n
dds id
)(1,2/n
std d
n
Interpretation: If CI contains 0, then μ1 – μ2 may be either positive or negative (can’t say that one is larger than the other). Since this CI contains 0, we conclude there is no significant difference between the mean TCDD levels in the fat tissue.
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EGR 252 Ch. 9 Lecture2 JMB Spring 2011 Slide 11
C.I. for Proportions
The proportion, P, in a binomial experiment may be estimated by
where X is the number of successes in n trials.
For a sample, the point estimate of the parameter is
The mean for the sample proportion is
and the sample variance
n
XP
n
xp
pp
n
pq
p
2
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EGR 252 Ch. 9 Lecture2 JMB Spring 2011 Slide 12
C.I. for Proportions
An approximate (1-α)100% confidence interval for p is:
Large-sample C.I. for p1 – p2 is:
Interpretation: If the CI contains 0 …
n
qpzp
2/
2
22
1
112/21 )(
n
qp
n
qpzpp
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EGR 252 Ch. 9 Lecture2 JMB Spring 2011 Slide 13
Example 9.16 Page 304
1. If the C.I. for p1 – p2 = (-0.0017, 0.0217), is there reason to believe there is a significant decrease in the proportion defectives using the new process?
2. What if the interval were (+0.002, +0.022)?
3. What if the interval were (-0.900, -0.700)?
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EGR 252 Ch. 9 Lecture2 JMB Spring 2011 Slide 14
Determining Sample Sizes for Developing Confidence Intervals
Requires specification of an error amount е Requires specification of a confidence level
Examples in text Example 9.3 Page 277
• Single sample estimate of mean Example 9.14 Page 301
• Single sample estimate of proportion Example 9.15 Page 302
• Single sample estimate of proportion