confidence intervals for variance and standard deviation
TRANSCRIPT
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Confidence Intervals for Variance and Standard
Deviation
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Chi-square Distributions
As sample size increases and d.f. increases, the distribution for a chi-square becomes flatter.
Chi-square distributions are positively skewed.
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You can use a chi-square distribution to construct a confidence interval for the variance and standard deviation.
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Critical Values
There are two critical values for each level of confidence. The value of represents the right-tail critical value and repesents the left-tail critical value. Chi-square table lists critical values of X2 for various degrees of freedom and areas. Each area in the table represents the region under the chi-square curve to the RIGHT of the critical value.
RX
2
LX
2
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Critical Values
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Ex. 1: Finding Critical Values for X2
Find the critical values, and , for a
90% confidence interval when the sample
size is 20.
RX
2
LX
2
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SOLUTION
Because the sample size is 20, there are d.f.=
n – 1 = 20 – 1 = 19 degrees of freedom. The
areas to the right of and are:RX
2
LX
2
Area to right of 05.02
10.0
2
2
R
X
Area to left of 95.02
10.01
21
2
L
X
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Using d.f. = 19 and the areas 0.95 and 0.05, you can find the critical values, as shown by the highlighted areas in the table.
From the table, you c an see that and
So, 90% of the area under the curve lies between 10.117 and 30.144.
144.302
R
X 117.102
L
X
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Confidence Intervals
You can use the critical values and
to construct confidence intervals for a population
variance and standard deviation. As you would
expect, the best point estimate for the variance is s2
and the best point estimate for the standard deviation
is s.
RX
2
LX
2
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Definition
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Ex. 2: Constructing a Confidence Interval You randomly select and weigh 30 samples
of an allergy medication. The sample standard deviation is 1.2 milligrams. Assuming the weights are normally distributed, construct 99% confidence intervals for the population variance and standard deviation.
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SOLUTION
The areas to the right of and are: R
2
L
2
Area to the right of 005.02
01,0
2
2
R
X
Area to the left of 995.02
01,01
21
2
L
X
Using the values n = 30, d.f. = 29 and c = 0.99, the critical values for
RX
2
LX
2and are:
RX
2336.52
LX
2121.13
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Using these critical values and s = 1.2, the confidence interval for 2 is as follows:
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Solution:
The confidence interval for is :
183.3798.0
78.189.0
So, with 99% confidence, you can say that the population variance is between .798 and 3.183. The population standard deviation is between 0.89 and 1.78 milligrams.
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Confidence Intervals for the Difference between Two Population Means µx - µy
Confidence Intervals for the Difference between Two Population Means µx - µy
16
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Confidence Intervals for the Difference between Two Population Means An important problem in statistical inference deals
with the comparison of two population means. To compare population means, a random sample is drawn from the two populations and an inference about the difference between population means is based on the sample results. We will consider the following two very common sampling schemes;
Matched Pairs Independent Samples
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Confidence Intervals for the Difference between Two Population Means: Matched Pairs
In this scheme, the sample members are choosen in pairs, one from each population. The idea is that, apart from the factor under study, the members of these pairs should resemble one another as closely as possible so that the comparison of interest can be made directly. For instance, suppose that we want to measure the effectiveness of a speed- reading course. One possible approach would be to record the number of words per minute read by a sample of students before taking the course and compare with results for the same students after completing the course. In this case, each pair of observations consists of ‘before’ and ‘after’measurements on a single student.
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The sample mean and the variance of the difference;
If the population distribution of the differences is assumed to be normal, then a confidence interval for is given by
Confidence Intervals for the Difference between Two Population Means: Matched Pairs
n
iidn
d1
1
n
iid dnd
ns
1
222
1
1
)%1(100 )( yx
n
std
n
std dn
yxdn 2/,12/,1
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Confidence Intervals for the Difference between Two Population Means µx - µy: Independent Samples
20
As a first step, we examine the situation where the two population distributions are normal with normal variances. The random variable, the difference between the corresponding sample means has mean;
And since the samples are independent, variance
YXYEXEYXE )()()(
y
Y
x
X
nnYVarXVarYXVar
22
)()()(
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The random variable
has a standart normal distribution.
Confidence Intervals for the Difference between Two Population Means µx - µy: Independent Samples
y
Y
x
X
YX
nn
YXZ
22
)()(
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Suppose that we have independent random samples of and observations from normal distributions with means . and and variances and . If the observed sample means are and then a confidence interval for is given by
Confidence Intervals for the Difference between Two Population Means µx - µy: Independent Samples (Known Variances or Large Sample Sizes)
xnyn
X Y 2X 2
Yx y )%1(100 YX
y
Y
x
XYX
y
Y
x
X
nnzyx
nnzyx
22
2/
22
2/ )()(
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Common variance;
The estimator used is
Confidence Intervals for the Difference between Two Population Means µx - µy: Independent Samples , Population Variances Equal
yx
yx
yx
yx
nn
nn
nn
nnYVarXVarYXVar
22
22
11
)()()(
)2(
)1()1( 222
yx
yyxx
nn
snsns
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Replacing the unknown variance with its estimator;
This random variable obeys the Student’s t distribution with ( ) degrees of freedom.
Confidence Intervals for the Difference between Two Population Means µx - µy: Independent Samples , Population Variances Equal
yx
yx
YX
nn
nns
YXt
)()(
2 yx nn
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Suppose that we have independent random samples of and observations from normal distributions with means . and and a common variance. If the observed sample means are and then a confidence interval for is given by
xnyn
X Yx y )%1(100
YX
yx
yxnnYX
yx
yxnn nn
nnstyx
nn
nnstyx
yxyx
2/,22/,2 )()(
Confidence Intervals for the Difference between Two Population Means µx - µy: Independent Samples , Population Variances Equal