anova complex design. what is in a results section??? look at the example in your textbook. you need...
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![Page 1: ANOVA complex design. What is in a results section??? LOOK at the example in your textbook. You need to have subheading. You need to have figures and](https://reader035.vdocuments.net/reader035/viewer/2022062803/56649efb5503460f94c0dff1/html5/thumbnails/1.jpg)
ANOVA complex design
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What is in a results section???
LOOK at the example in your textbook.
You need to have subheading.You need to have figures and they must have useful figure captions.You must refer to your figures.You need to describe the data in some wayYou need to describe the analyses and what you found.Is it significant? Or notThen add some English to describe what you found.
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e.gTo examine the effects of memory training on retention of words, 20 college students were randomly assigned to four training conditions (n=5) defined by the instructions to participants: story method, imagery method, rhyme method, and control (no specific instructions). Mean recall out of a possible 20 words (and the sample standard deviation) for each condition was: story 13.2(1.3), imagery 14.4 (1.8), rhyme 13.4 (1.3) and control 10.0 (1.6). Confidence intervals for the means in each group are shown in figure 1. Mean recall differed significantly among the four instruction conditions, F(3,16) = 7.8, p<.05. MS = 240….
A paragraph that describes what is compared and what you found.Where I should look to find the information.
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Reporting results of complex design
• What kind of test• description of variables and definitions of levels (conditions) of each• summary statistics for cells in design matrix (figure)• report F tests for main effects and interactions• effect size • statement of power for nonsignificant results• simple main effects analysis when interaction is statistically
significant• description of statistically significant interactions – looking at cell
means• description of statistically significant main effect • analytical comparisons – to clarify sources of systematic variation• conclusion from analysis
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The data are from a statement by Texaco, Inc. to the Air and Water Pollution Subcommittee of the Senate Public Works Committee on June 26, 1973. Mr. John McKinley, President of Texaco, cited the Octel filter, developed by Associated Octel Company as effective in reducing pollution. However, questions had been raised about the effects of pollution filters on aspects of vehicle performance, including noise levels. He referred to data presented in the datafile associated with this story as evidence that the Octel filter was was at least as good as a standard silencer in controlling vehicle noise levels.
Car Noise
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The data constitute a 3-way factorial experiment with 3 replications.
The factors are type of filter (2 types), vehicle size (3 sizes), and side of car (two sides).
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Number of cases = 36
DV
NOISE = Noise level reading (decibels)
IV
SIZE = Vehicle size: 1 small, 2 medium, 3 large TYPE = 1 standard silencer ,2 Octel filter SIDE = 1 right side 2 left side of car
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Between-Subjects Factors
small 12
medium 12
large 12
standard 18
Octel 18
right 18
left 18
1.00
2.00
3.00
size
1.00
2.00
type
1.00
2.00
side
Value Label N
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Descriptive Statistics
Dependent Variable: noise
816.6667 5.77350 3
835.0000 .00000 3
825.8333 10.68488 6
820.0000 .00000 3
825.0000 .00000 3
822.5000 2.73861 6
818.3333 4.08248 6
830.0000 5.47723 6
824.1667 7.63763 12
841.6667 2.88675 3
850.0000 5.00000 3
845.8333 5.84523 6
821.6667 2.88675 3
821.6667 5.77350 3
821.6667 4.08248 6
831.6667 11.25463 6
835.8333 16.25320 6
833.7500 13.50505 12
786.6667 2.88675 3
763.3333 5.77350 3
775.0000 13.41641 6
775.0000 .00000 3
765.0000 5.00000 3
770.0000 6.32456 6
780.8333 6.64580 6
764.1667 4.91596 6
772.5000 10.33529 12
815.0000 24.10913 9
816.1111 40.29406 9
815.5556 32.21659 18
805.5556 22.97341 9
803.8889 29.45100 9
804.7222 25.63730 18
810.2778 23.35608 18
810.0000 34.81041 18
810.1389 29.21561 36
sideright
left
Total
right
left
Total
right
left
Total
right
left
Total
right
left
Total
right
left
Total
right
left
Total
right
left
Total
right
left
Total
right
left
Total
right
left
Total
right
left
Total
typestandard
Octel
Total
standard
Octel
Total
standard
Octel
Total
standard
Octel
Total
sizesmall
medium
large
Total
Mean Std. Deviation N
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Tests of Between-Subjects Effects
Dependent Variable: noise
29524.306a 11 2684.028 184.048 .000
23627700.7 1 23627701 1620185 .000
26051.389 2 13025.694 893.190 .000
1056.250 1 1056.250 72.429 .000
.694 1 .694 .048 .829
804.167 2 402.083 27.571 .000
1293.056 2 646.528 44.333 .000
17.361 1 17.361 1.190 .286
301.389 2 150.694 10.333 .001
350.000 24 14.583
23657575.0 36
29874.306 35
SourceCorrected Model
Intercept
size
type
side
size * type
size * side
type * side
size * type * side
Error
Total
Corrected Total
Type III Sumof Squares df
MeanSquare F Sig.
R Squared = .988 (Adjusted R Squared = .983)a.
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Tests of Between-Subjects Effects
Dependent Variable: noise
29524.306b 11 2684.028 184.048 .000 .988 2024.524 1.000
23627700.7 1 23627700.69 1620185 .000 1.000 1620185.2 1.000
26051.389 2 13025.694 893.190 .000 .987 1786.381 1.000
1056.250 1 1056.250 72.429 .000 .751 72.429 1.000
.694 1 .694 .048 .829 .002 .048 .055
804.167 2 402.083 27.571 .000 .697 55.143 1.000
1293.056 2 646.528 44.333 .000 .787 88.667 1.000
17.361 1 17.361 1.190 .286 .047 1.190 .182
301.389 2 150.694 10.333 .001 .463 20.667 .975
350.000 24 14.583
23657575.0 36
29874.306 35
SourceCorrected Model
Intercept
size
type
side
size * type
size * side
type * side
size * type * side
Error
Total
Corrected Total
Type III Sumof Squares df Mean Square F Sig.
Partial EtaSquared
Noncent.Parameter
ObservedPower
a
Computed using alpha = .05a.
R Squared = .988 (Adjusted R Squared = .983)b.
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Descriptive Statistics
Dependent Variable: noise
816.6667 5.77350 3
835.0000 .00000 3
825.8333 10.68488 6
820.0000 .00000 3
825.0000 .00000 3
822.5000 2.73861 6
818.3333 4.08248 6
830.0000 5.47723 6
824.1667 7.63763 12
841.6667 2.88675 3
850.0000 5.00000 3
845.8333 5.84523 6
821.6667 2.88675 3
821.6667 5.77350 3
821.6667 4.08248 6
831.6667 11.25463 6
835.8333 16.25320 6
833.7500 13.50505 12
786.6667 2.88675 3
763.3333 5.77350 3
775.0000 13.41641 6
775.0000 .00000 3
765.0000 5.00000 3
770.0000 6.32456 6
780.8333 6.64580 6
764.1667 4.91596 6
772.5000 10.33529 12
815.0000 24.10913 9
816.1111 40.29406 9
815.5556 32.21659 18
805.5556 22.97341 9
803.8889 29.45100 9
804.7222 25.63730 18
810.2778 23.35608 18
810.0000 34.81041 18
810.1389 29.21561 36
sideright
left
Total
right
left
Total
right
left
Total
right
left
Total
right
left
Total
right
left
Total
right
left
Total
right
left
Total
right
left
Total
right
left
Total
right
left
Total
right
left
Total
typestandard
Octel
Total
standard
Octel
Total
standard
Octel
Total
standard
Octel
Total
sizesmall
medium
large
Total
Mean Std. Deviation N
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Main effect Size is significant
Mean small 824.16 sd = 7.63 Mean medium 833.75 sd =13.5Mean large 772.50 sd= 10.33
Need post hoc tests
Main effectType is significant
Standard mean 815.56 sd =32.2Octel mean 804.72 sd =25.63
Don’t need post hoc tests
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Multiple Comparisons
Dependent Variable: noise
Tukey HSD
-9.5833* 1.55902 .000 -13.4767 -5.6900
51.6667* 1.55902 .000 47.7733 55.5600
9.5833* 1.55902 .000 5.6900 13.4767
61.2500* 1.55902 .000 57.3567 65.1433
-51.6667* 1.55902 .000 -55.5600 -47.7733
-61.2500* 1.55902 .000 -65.1433 -57.3567
(J) sizemedium
large
small
large
small
medium
(I) sizesmall
medium
large
MeanDifference
(I-J) Std. Error Sig. Lower Bound Upper Bound
95% Confidence Interval
Based on observed means.
The mean difference is significant at the .05 level.*.
All sizes differ.
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Interaction
Size by Side is significantNeed to find out where is the difference
Simple main effects analysis
Do t-test for the smallAnd one for the mediumAnd one for large
One anova for left sideOne anova for right side
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Independent Samples Test
4.000 .073 -4.183 10 .002 -11.66667 2.78887 -17.88065 -5.45268
-4.183 9.245 .002 -11.66667 2.78887 -17.95010 -5.38323
Equal variancesassumed
Equal variancesnot assumed
noiseF Sig.
Levene's Test forEquality of Variances
t df Sig. (2-tailed)Mean
DifferenceStd. ErrorDifference Lower Upper
95% ConfidenceInterval of the
Difference
t-test for Equality of Means
Independent Samples Test
2.500 .145 4.939 10 .001 16.66667 3.37474 9.14727 24.18606
4.939 9.211 .001 16.66667 3.37474 9.05904 24.27430
Equal variancesassumed
Equal variancesnot assumed
noiseF Sig.
Levene's Test forEquality of Variances
t df Sig. (2-tailed)Mean
DifferenceStd. ErrorDifference Lower Upper
95% ConfidenceInterval of the
Difference
t-test for Equality of Means
m
L
s
side
Independent Samples Test
3.472 .092 -.516 10 .617 -4.16667 8.07087 -22.14968 13.81634
-.516 8.899 .618 -4.16667 8.07087 -22.45600 14.12266
Equal variancesassumed
Equal variancesnot assumed
noiseF Sig.
Levene's Test forEquality of Variances
t df Sig. (2-tailed)Mean
DifferenceStd. ErrorDifference Lower Upper
95% ConfidenceInterval of the
Difference
t-test for Equality of Means
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• Small size left bigger than right
• Medium size no difference
• Large size right bigger than left
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ANOVA
noise
8336.111 2 4168.056 66.689 .000
937.500 15 62.500
9273.611 17
Between Groups
Within Groups
Total
Sum ofSquares df Mean Square F Sig.
Right
Multiple Comparisons
Dependent Variable: noise
Tukey HSD
-13.33333* 4.56435 .027 -25.1891 -1.4776
37.50000* 4.56435 .000 25.6442 49.3558
13.33333* 4.56435 .027 1.4776 25.1891
50.83333* 4.56435 .000 38.9776 62.6891
-37.50000* 4.56435 .000 -49.3558 -25.6442
-50.83333* 4.56435 .000 -62.6891 -38.9776
(J) sizemedium
large
small
large
small
medium
(I) sizesmall
medium
large
MeanDifference
(I-J) Std. Error Sig. Lower Bound Upper Bound
95% Confidence Interval
The mean difference is significant at the .05 level.*.
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ANOVA
noise
19008.333 2 9504.167 89.568 .000
1591.667 15 106.111
20600.000 17
Between Groups
Within Groups
Total
Sum ofSquares df Mean Square F Sig.
Multiple Comparisons
Dependent Variable: noise
Tukey HSD
-5.83333 5.94730 .600 -21.2813 9.6146
65.83333* 5.94730 .000 50.3854 81.2813
5.83333 5.94730 .600 -9.6146 21.2813
71.66667* 5.94730 .000 56.2187 87.1146
-65.83333* 5.94730 .000 -81.2813 -50.3854
-71.66667* 5.94730 .000 -87.1146 -56.2187
(J) sizemedium
large
small
large
small
medium
(I) sizesmall
medium
large
MeanDifference
(I-J) Std. Error Sig. Lower Bound Upper Bound
95% Confidence Interval
The mean difference is significant at the .05 level.*.
Left
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• On right - small cars louder than large
- medium cars louder than large
- small cars quieter than medium
• On left - small cars louder than large
- medium cars louder than large
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Interaction
Size by Type is significantNeed to find out where is the difference
Simple main effects analysis
Do t-test for the smallAnd one for the mediumAnd one for large
One for type standardOne for type Octel
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Independent Samples Test
10.000 .010 .826 10 .428 5.00000 6.05530 -8.49205 18.49205
.826 7.118 .436 5.00000 6.05530 -9.27067 19.27067
Equal variancesassumed
Equal variancesnot assumed
noiseF Sig.
Levene's Test forEquality of Variances
t df Sig. (2-tailed)Mean
DifferenceStd. ErrorDifference Lower Upper
95% ConfidenceInterval of the
Difference
t-test for Equality of Means
Independent Samples Test
.537 .481 8.303 10 .000 24.16667 2.91071 17.68120 30.65213
8.303 8.940 .000 24.16667 2.91071 17.57549 30.75784
Equal variancesassumed
Equal variancesnot assumed
noiseF Sig.
Levene's Test forEquality of Variances
t df Sig. (2-tailed)Mean
DifferenceStd. ErrorDifference Lower Upper
95% ConfidenceInterval of the
Difference
t-test for Equality of Means
Independent Samples Test
20.000 .001 .740 10 .476 3.33333 4.50309 -6.70017 13.36683
.740 5.654 .489 3.33333 4.50309 -7.85080 14.51746
Equal variancesassumed
Equal variancesnot assumed
noiseF Sig.
Levene's Test forEquality of Variances
t df Sig. (2-tailed)Mean
DifferenceStd. ErrorDifference Lower Upper
95% ConfidenceInterval of the
Difference
t-test for Equality of Means
s
m
L
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Standard
ANOVA
noise
16002.778 2 8001.389 73.109 .000
1641.667 15 109.444
17644.444 17
Between Groups
Within Groups
Total
Sum ofSquares df Mean Square F Sig.
Multiple Comparisons
Dependent Variable: noise
Tukey HSD
-20.00000* 6.03999 .012 -35.6887 -4.3113
50.83333* 6.03999 .000 35.1446 66.5220
20.00000* 6.03999 .012 4.3113 35.6887
70.83333* 6.03999 .000 55.1446 86.5220
-50.83333* 6.03999 .000 -66.5220 -35.1446
-70.83333* 6.03999 .000 -86.5220 -55.1446
(J) sizemedium
large
small
large
small
medium
(I) sizesmall
medium
large
MeanDifference
(I-J) Std. Error Sig. Lower Bound Upper Bound
95% Confidence Interval
The mean difference is significant at the .05 level.*.
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ANOVA
noise
16002.778 2 8001.389 73.109 .000
1641.667 15 109.444
17644.444 17
Between Groups
Within Groups
Total
Sum ofSquares df Mean Square F Sig.
Multiple Comparisons
Dependent Variable: noise
Tukey HSD
-20.00000* 6.03999 .012 -35.6887 -4.3113
50.83333* 6.03999 .000 35.1446 66.5220
20.00000* 6.03999 .012 4.3113 35.6887
70.83333* 6.03999 .000 55.1446 86.5220
-50.83333* 6.03999 .000 -66.5220 -35.1446
-70.83333* 6.03999 .000 -86.5220 -55.1446
(J) sizemedium
large
small
large
small
medium
(I) sizesmall
medium
large
MeanDifference
(I-J) Std. Error Sig. Lower Bound Upper Bound
95% Confidence Interval
The mean difference is significant at the .05 level.*.
Octel
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significant 3-way interaction.
Size by type by side
Need to separate the factors so can do2-way analyses
Hold one factor constant and test otherEg do a 2X2 of small cars2X2 of medium and 2X2 of large….
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Small car – type by side
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Test small car
Tests of Between-Subjects Effects
Dependent Variable: noise
575.000b 3 191.667 23.000 .000 .896 69.000 1.000
8151008.333 1 8151008.333 978121.0 .000 1.000 978121.000 1.000
33.333 1 33.333 4.000 .081 .333 4.000 .421
408.333 1 408.333 49.000 .000 .860 49.000 1.000
133.333 1 133.333 16.000 .004 .667 16.000 .937
66.667 8 8.333
8151650.000 12
641.667 11
SourceCorrected Model
Intercept
type
side
type * side
Error
Total
Corrected Total
Type III Sumof Squares df Mean Square F Sig.
Partial EtaSquared
Noncent.Parameter
ObservedPower
a
Computed using alpha = .05a.
R Squared = .896 (Adjusted R Squared = .857)b.
Side is significant - left bigger than rightInteraction is significant
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Small car Type : t –tests for the interaction Right
Independent Samples Test
16.000 .016 -1.000 4 .374 -3.33333 3.33333 -12.58815 5.92148
-1.000 2.000 .423 -3.33333 3.33333 -17.67551 11.00884
Equal variancesassumed
Equal variancesnot assumed
noiseF Sig.
Levene's Test forEquality of Variances
t df Sig. (2-tailed)Mean
DifferenceStd. ErrorDifference Lower Upper
95% ConfidenceInterval of the
Difference
t-test for Equality of Means
Group Statistics
3 835.0000 .00000a .00000
3 825.0000 .00000a .00000
typestandard
Octel
noiseN Mean Std. Deviation
Std. ErrorMean
t cannot be computed because the standard deviations of bothgroups are 0.
a.
Left
Octel louder than standard
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Small car – t-tests for side
Independent Samples Test
16.000 .016 -5.500 4 .005 -18.33333 3.33333 -27.58815 -9.07852
-5.500 2.000 .032 -18.33333 3.33333 -32.67551 -3.99116
Equal variancesassumed
Equal variancesnot assumed
noiseF Sig.
Levene's Test forEquality of Variances
t df Sig. (2-tailed)Mean
DifferenceStd. ErrorDifference Lower Upper
95% ConfidenceInterval of the
Difference
t-test for Equality of Means
Standard
Octel
Group Statistics
3 820.0000 .00000a .00000
3 825.0000 .00000a .00000
sideright
left
noiseN Mean Std. Deviation
Std. ErrorMean
t cannot be computed because the standard deviations of bothgroups are 0.
a.
Left louder than right
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Medium car - type by side
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Test Medium car
Tests of Between-Subjects Effects
Dependent Variable: noise
1856.250b 3 618.750 33.000 .000 .925 99.000 1.000
8341668.750 1 8341668.750 444889.0 .000 1.000 444889.000 1.000
1752.083 1 1752.083 93.444 .000 .921 93.444 1.000
52.083 1 52.083 2.778 .134 .258 2.778 .312
52.083 1 52.083 2.778 .134 .258 2.778 .312
150.000 8 18.750
8343675.000 12
2006.250 11
SourceCorrected Model
Intercept
type
side
type * side
Error
Total
Corrected Total
Type III Sumof Squares df Mean Square F Sig.
Partial EtaSquared
Noncent.Parameter
ObservedPower
a
Computed using alpha = .05a.
R Squared = .925 (Adjusted R Squared = .897)b.
Type is significant – standard louder than Octel
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Large car – type by side
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Test large car
Tests of Between-Subjects Effects
Dependent Variable: noise
1041.667b 3 347.222 20.833 .000 .887 62.500 1.000
7161075.000 1 7161075.000 429664.5 .000 1.000 429664.500 1.000
75.000 1 75.000 4.500 .067 .360 4.500 .463
833.333 1 833.333 50.000 .000 .862 50.000 1.000
133.333 1 133.333 8.000 .022 .500 8.000 .698
133.333 8 16.667
7162250.000 12
1175.000 11
SourceCorrected Model
Intercept
type
side
type * side
Error
Total
Corrected Total
Type III Sumof Squares df Mean Square F Sig.
Partial EtaSquared
Noncent.Parameter
ObservedPower
a
Computed using alpha = .05a.
R Squared = .887 (Adjusted R Squared = .844)b.
Side is significant – right is louder than leftInteraction is significant -
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Large car Type : t –tests for the interactionRight
Left
Independent Samples Test
16.000 .016 7.000 4 .002 11.66667 1.66667 7.03926 16.29408
7.000 2.000 .020 11.66667 1.66667 4.49558 18.83775
Equal variancesassumed
Equal variancesnot assumed
noiseF Sig.
Levene's Test forEquality of Variances
t df Sig. (2-tailed)Mean
DifferenceStd. ErrorDifference Lower Upper
95% ConfidenceInterval of the
Difference
t-test for Equality of Means
Independent Samples Test
.308 .609 -.378 4 .725 -1.66667 4.40959 -13.90964 10.57631
-.378 3.920 .725 -1.66667 4.40959 -14.00881 10.67548
Equal variancesassumed
Equal variancesnot assumed
noiseF Sig.
Levene's Test forEquality of Variances
t df Sig. (2-tailed)Mean
DifferenceStd. ErrorDifference Lower Upper
95% ConfidenceInterval of the
Difference
t-test for Equality of Means
Standard louder than octel
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Independent Samples Test
3.200 .148 6.261 4 .003 23.33333 3.72678 12.98613 33.68053
6.261 2.941 .009 23.33333 3.72678 11.33773 35.32894
Equal variancesassumed
Equal variancesnot assumed
noiseF Sig.
Levene's Test forEquality of Variances
t df Sig. (2-tailed)Mean
DifferenceStd. ErrorDifference Lower Upper
95% ConfidenceInterval of the
Difference
t-test for Equality of Means
Standard
Octel
Independent Samples Test
4.000 .116 3.464 4 .026 10.00000 2.88675 1.98509 18.01491
3.464 2.000 .074 10.00000 2.88675 -2.42069 22.42069
Equal variancesassumed
Equal variancesnot assumed
noiseF Sig.
Levene's Test forEquality of Variances
t df Sig. (2-tailed)Mean
DifferenceStd. ErrorDifference Lower Upper
95% ConfidenceInterval of the
Difference
t-test for Equality of Means