chapter 12 analysis of variance. 2 the f distribution definition 1. the f distribution is continuous...
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Chapter 12
ANALYSIS OF VARIANCE
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THE F DISTRIBUTION
Definition 1. The F distribution is continuous and
skewed to the right.2. The F distribution has two numbers of
degrees of freedom: df for the numerator and df for the denominator.
3. The units of an F distribution, denoted F, are nonnegative.
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THE F DISTRIBUTION cont.
df = (8, 14)
First number denotes the df for the numerator
Second number denotes the df for the denominator
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Figure 12.1 Three F distribution curves.
df = (1 , 3)
df = (7 , 6)
df = (12 , 40)
F
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Example 12-1
Find the F value for 8 degrees of freedom for the numerator, 14 degrees of freedom for the denominator, and .05 area in the right tail of the F distribution curve.
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Solution 12-1
Degrees of Freedom for the Numerator
1 2 . . . 8 . . . 100
12.
14.
100
161.518.51. . . 4.60. . . 3.94
199.519.00. . . 3.74. . . 3.09
. . .
. . .
. . .
. . .
. . .
. . .
238.919.37. . . 2.70. . .2.03
. . .. . . . . .. . .. . .. . .
253.019.49. . .2.19. . .1.39D
eg
rees
of
Freed
om
for
the
Den
om
inato
r
Table 12.1
The F value for 8 df for the numerator, 14 df for the denominator, and .05 area in the right tail
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Figure 12.2 The critical value of F for 8 df for the numerator, 14 df for the denominator, and .05 area in the right tail.
df = (8, 14)
.05
2.70 F 0
The required F value
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ONE-WAY ANALYSIS OF VARIANCE
Calculating the Value of the Test Statistic
One-Way ANOVA Test
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ONE-WAY ANALYSIS OF VARIANCE cont.
Definition ANOVA is a procedure used to test
the null hypothesis that the means of three or more populations are equal.
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Assumptions of One-Way ANOVA
The following assumptions must hold true to use one-way ANOVA.
1. The populations from which the samples are drawn are (approximately) normally distributed.
2. The populations from which the samples are drawn have the same variance (or standard deviation).
3. The samples drawn from different populations are random and independent.
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Calculating the Value of the Test Statistic
Test Statistic F for a One-Way ANOVA Test
The value of the test statistic F for an ANOVA test is calculated as
MSW
MSBor
samples within Variance
samplesbetween VarianceF
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Example 12-2
Fifteen fourth-grade students were randomly assigned to three groups to experiment with three different methods of teaching arithmetic. At the end of the semester, the same test was given to all 15 students. The table gives the scores of students in the three groups.
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Example 12-2
Calculate the value of the test statistic F. Assume that all the required assumptions mentioned earlier hold true
Method I Method II Method III
4873516587
5585706990
8468957467
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Solution 12-2Let
x = the score of a student k = the number of different samples (or
treatments) ni = the size of sample i Ti = the sum of the values in sample i n = the number of values in all samples
= n1 + n2 + n3 + . . . Σx = the sum of the values in all samples
= T1 + T2 + T3 + . . . Σx² = the sum of the squares of the values in all
samples
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Solution 12-2
To calculate MSB and MSW, we first compute the between-samples sum of squares denoted by SSB and the within-samples sum of squares denoted by SSW. The sum of SSB and SSW is called the total sum of squares and it is denoted by SST; that is,
SST = SSB + SSW
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Between- and Within-Samples Sums of Squares
The between-samples sum of squares, denoted by SSB, is calculates as
n
x
n
T
n
T
n
TSSB
2
3
23
2
22
1
21
)(...
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Between- and Within-Samples Sums of Squares cont.
The within-samples sum of squares, denoted by SSW, is calculated as
...
3
23
2
22
1
212
n
T
n
T
n
TxSSW
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Table 12.2
Method I Method II Method III
4873516587
5585706990
8468957467
T1 = 324
n1 = 5
T2 = 369
n2 = 5
T3 = 388
n3 = 5
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Solution 12-2
∑x = T1 + T2 + T3 = 1081
n = n1 + n2 + n3 = 15
Σx² = (48)² + (73)² + (51)² + (65)² + (87)² + (55)² + (85)² + (70)²
+ (69)² + (90)² + (84)² + (68)² + (95)² + (74)² + (67)²
= 80,709
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Solution 12-2
9333.28048000.23721333.432SST
8000.23725
)388(
5
)369(
5
)324(709,80SSW
1333.43215
)1081(
5
)388(
5
)369(
5
)324(SSB
222
2222
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Calculating the Values of MSB and MSW
MSB and MSW are calculated as
Where k – 1 and n – k are, respectively, the df for the numerator and the df for the denominator for the F distribution.
kn
SSWMSW
k
SSBMSB
and
1
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Solution 12-2
09.17333.197
0667.216
7333.197315
8000.2372
0667.21613
432.1333
1
MSW
MSBF
kn
SSWMSW
k
SSBMSB
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Table 12.3 ANOVA Table
Source of Variation
Degrees of Freedom
Sum of Squares
Mean Square
Value of the Test Statistic
BetweenWithin
k – 1
n – k
SSBSSW
MSBMSW
Total n – 1 SSTMSW
MSBF
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Table 12.4 ANOVA Table for Example 12-2
Source of Variation
Degrees of Freedom
Sum of Squares
Mean Square
Value of the Test Statistic
BetweenWithin
2 12
432.13332372.8000
216.0667197.7333
Total 14 2804.9333
09.17333.197
0667.216F
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One-Way ANOVA Test
Example 12-3 Reconsider Example 12-2 about the scores
of 15 fourth-grade students who were randomly assigned to three groups in order to experiment with three different methods of teaching arithmetic. At the 1% significance level, can we reject the null hypothesis that the mean arithmetic score of all fourth-grade students taught by each of these three methods is the same? Assume that all the assumptions required to apply the one-way ANOVA procedure hold true.
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Solution 12-3
H0: μ1 = μ2 = μ3 The mean scores of the three groups are
equal H1: Not all three means are equal
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Solution 12-3 α = .01 A one-way ANOVA test is always right-
tailed Area in the right tail is .01 df for the numerator = k – 1 = 3 – 1 = 2 df for the denominator = n – k = 15 – 3
= 12 The required value of F is 6.93
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Figure 12.3 Critical value of F for df = (2,12) and α = .01.
F 0 6.93
Reject H0Do not reject H1
α = .01
Critical value of F
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Solution 12-3
The value of the test statistic F = 1.09 It is less than the critical value of F =
6.93 If falls in the nonrejection region
Hence, we fail to reject the null hypothesis
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Example 12-4 From time to time, unknown to its employees,
the research department at Post Bank observes various employees for their work productivity . Recently this department wanted to check whether the four tellers at a branch of this bank serve, on average, the same number of customers per hour. The research manager observed each of the four tellers for a certain number of hours. The following table gives the number of customers served by the four tellers during each of the observed hours.
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Example 12-4
Teller A
Teller B
Teller C
Teller D
1921262418
141614131713
111421131618
2419212620
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Example 12-4
At the 5% significance level, test the null hypothesis that the mean number of customers served per hour by each of these four tellers is the same. Assume that all the assumptions required to apply the one-way ANOVA procedure hold true.
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Solution 12-4
H0: μ1 = μ2 = μ3 = μ4 The mean number of customers served
per hour by each of the four tellers is the same
H1: Not all four population means are equal
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Solution 12-4
We are testing for the equality of four means for four normally distributed populations
We use the F distribution to make the test
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Solution 12-4
α = .05. A one-way ANOVA test is always right-
tailed. Area in the right tail is .05. df for the numerator = k – 1 = 4 – 1 = 3 df for the denominator = n – k = 22 – 4
= 18
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Figure 12.4 Critical value of F for df = (3, 18)
and α = .05.
F 0 3.16
Reject H0Do not reject H0
α = .05
Critical value of F
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Table 12.5
Teller A Teller B Teller C Teller D
1921262418
141614131713
111421131618
2419212620
T1 = 108
n1 = 5
T2 = 87
n2 = 6
T3 = 93
n3 = 6
T4 = 110
n4 = 5
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Solution 12-4 Σx = T1 + T2 + T3 + T4 =108 + 87 + 93 + 110
= 398 n = n1 + n2 + n3 + n4 = 5 + 6 + 6 + 5 = 22 Σx² = (19)² + (21)² + (26)² + (24)² + (18)² +
(14)² + (16)² + (14)² + (13)² + (17)² + (13)² + (11)² + (14)² + (21)² + (13)² + (16)² + (18)² + (24)² + (19)² + (21)² + (26)² + (20)²
= 7614
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Solution 12-4
2000.1585
)110(
6
)93(
6
)87(
5
)108(7614
6182.25522
)398(
5
)110(
6
)93(
6
)87(
5
)108(
2222
4
24
3
23
2
22
1
212
22222
2
4
24
3
23
2
22
1
21
n
T
n
T
n
T
n
TxSSW
n
x
n
T
n
T
n
T
n
TSSB
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Solution 12-4
69.97889.8
2061.85
7889.8422
2000.158
2061.8514
255.6182
1
MSW
MSBF
kn
SSWMSW
k
SSBMSB
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Table 12.6 ANOVA Table for Example 12-4
Source of Variation
Degrees of Freedom
Sum of Squares
Mean Square
Value of the Test Statistic
BetweenWithin
3 18
255.6182158.2000
85.20618.7889
Total 21 413.8182
69.97889.8
2061.85F
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Solution 12-4
The value for the test statistic F = 9.69 It is greater than the critical value of F If falls in the rejection region
Consequently, we reject the null hypothesis