LAMPIRAN
1. Data Mentah Rata-Rata Jumlah Leukosit Tikus Jantan (
Rattus norvegicus
)
Galur Wistar
Tabel Rata-Rata Jumlah Leukosit Tikus Jantan (
Rattus norvegicus
) Galur
Wistar
Ulangan
P0
(Kontrol)
P1
(25-50 dB)
P2
(55-80 dB)
P3
(85-110 dB)
U1
5650
5350
4800
3050
U2
7100
3150
3900
2900
U3
7600
3300
3000
2800
U4
5450
5100
4100
2900
U5
6500
4650
4700
3200
U6
7400
3900
3050
3100
RATA-RATA
6616.6
4241.6
3925
2991.6
2. Data Mentah Hitung Jenis Limfosit Tikus Jantan (
Rattus norvegicus
)
Galur Wistar
Tabel Data Hitung Jenis Limfosit Tikus Jantan (
Rattus norvegicus
) Galur
Wistar
Ulangan
P0
(Kontrol)
P1
(25-50 dB)
P2
(55-80 dB)
P3
(85-110 dB)
U1
76
73
87
69
U2
76
80
76
67
U3
81
79
71
63
U4
78
70
72
62
U5
61
73
58
62
3. Data Mentah Hitung Jenis Neutrofil Tikus Jantan (
Rattus norvegicus
)
Galur Wistar
Tabel Data Hitung Jenis Neutrofil Tikus Jantan (
Rattus norvegicus
) Galur
Wistar
Ulangan
P0
(Kontrol)
P1
(25-50 dB)
P2
(55-80 dB)
P3
(85-110 dB)
U1
23
20
8
24
U2
21
18
17
25
U3
15
16
27
32
U4
15
25
25
34
U5
30
20
32
35
U6
17
23
26
32
4. Data Mentah Hitung Jenis Monosit Jantan (
Rattus norvegicus
) Galur
Wistar
Tabel Data Hitung Jenis Monosit Jantan (
Rattus norvegicus
) Galur Wistar
P0
(Kontrol)
P1
(25-50 dB)
P2
(55-80 dB)
P3
(85-110 dB)
U1
1
5
5
4
U2
3
1
7
6
U3
2
5
2
3
U4
5
3
2
3
U5
8
4
8
2
U6
7
3
4
4
5. Data Mentah Hitung Jenis Eosinofil Tikus Jantan (
Rattus norvegicus
)
Galur Wistar
Tabel Data Hitung Jenis Eosinofil Tikus Jantan (
Rattus norvegicus
) Galur
Wistar
Ulangan
P0
(Kontrol)
P1
(25-50 dB)
P2
(55-80 dB)
P3
(85-110 dB)
U1
0
1
0
1
U2
0
1
0
1
U3
1
0
0
1
U4
0
2
0
0
U5
0
2
1
0
6. Data Mentah Hitung Jenis Basofil Tikus Jantan (
Rattus norvegicus
) Galur
Wistar
Tabel Data Hitung Jenis Basofil Jantan (
Rattus norvegicus
) Galur Wistar
Ulangan
P0
(Kontrol)
P1
(25-50 dB)
P2
(55-80 dB)
P3
(85-110 dB)
U1
0
1
0
2
U2
0
0
0
1
U3
1
0
0
1
U4
2
0
1
1
U5
1
1
1
1
U6
0
3
1
0
7. Data Mentah Berat Badan Tikus Jantan (
Rattus norvegicus
) Galur Wistar
Tabel Rata-Rata Berat Badan Tikus Jantan Jantan (
Rattus norvegicus
) Galur
Wistar
U
P0
P1
P2
P3
B.Awal
(gr)
B.Akhir
(gr)
B.Awal
(gr)
B.Akhir
(gr)
B.Awal
(gr)
B.Akhir
(gr)
B.Awal
(gr)
B.Akhir
(gr)
U1
236.3
257.2
130.6
140.9
198.1
199.9
276.5
238.1
U2
248.8
269.1
143.6
155.2
172.9
173.5
408.3
375.3
U3
187.4
204.7
122.6
135.8
202.8
212.4
251.3
220.1
U4
215.3
234.1
136.3
142.7
189.3
187.0
224.8
190.2
U5
224.8
244.0
134.0
144.5
182.9
182.8
307.5
268.2
U6
235.6
255.9
131.8
124.9
180.3
185.1
280.4
241.4
_
X
224.7
244.1
133.1
140.6
187.7
190.1
291.4
255.5
Selisih
19.4
7.5
2.4
-35.9
8. Analisis Data Rata-Rata Jumlah Leukosit Tikus Jantan (
Rattus
norvegicus
) Galur Wistar
Tests of Normality
perlakuan Kolmogorov-Smirnova Shapiro-Wilk
Statistic Df Sig. Statistic df Sig.
jumlah_leukosit
Perlakuan0 .203 6 .200* .900 6 .375
Perlakuan1 .178 6 .200* .912 6 .446
Perlakuan2 .203 6 .200* .889 6 .313
Perlakuan3 .230 6 .200* .951 6 .752
Test of Homogeneity of Variance
Levene Statistic df1 df2 Sig.
jumlah_leukosit
Based on Mean 5.273 3 20 .008
Based on Median 4.732 3 20 .012
Based on Median and with adjusted df
4.732 3 14.664 .017
Based on trimmed mean 5.272 3 20 .008
Hasil: Data Normal tetapi tidak homogeny, maka di transformed.
Transformed “natural log”
Tests of Normality
Perlakuan Kolmogorov-Smirnova Shapiro-Wilk
Statistic Df Sig. Statistic df Sig.
jumlah_leukosit
Perlakuan0 .203 6 .200* .900 6 .375
Perlakuan1 .178 6 .200* .912 6 .446
Perlakuan2 .203 6 .200* .889 6 .313
Perlakuan3 .230 6 .200* .951 6 .752
*. This is a lower bound of the true significance. a. Lilliefors Significance Correction
Test of Homogeneity of Variance
Levene Statistic df1 df2 Sig.
jumlah_leukosit
Based on Mean 4.678 3 20 .012
Based on Median 3.716 3 20 .028
Based on Median and with adjusted df
3.716 3 13.634 .038
Based on trimmed mean 4.608 3 20 .013
Hasil: Data tidak homogeny, maka di transformed kembali
Transformed “1/square root”
Tests of Normality
Perlakuan Kolmogorov-Smirnova Shapiro-Wilk
Statistic Df Sig. Statistic df Sig.
jumlah_leukosit
Perlakuan0 .203 6 .200* .900 6 .375
Perlakuan1 .178 6 .200* .912 6 .446
Perlakuan2 .203 6 .200* .889 6 .313
Perlakuan3 .230 6 .200* .951 6 .752
*. This is a lower bound of the true significance. a. Lilliefors Significance Correction
Test of Homogeneity of Variance
Levene Statistic df1 df2 Sig.
jumlah_leukosit
Based on Mean 5.053 3 20 .009
Based on Median 3.554 3 20 .033
Based on Median and with adjusted df
3.554 3 12.329 .047
Based on trimmed mean 4.939 3 20 .010
Transformed “reciprocal”
Tests of Normality
Perlakuan Kolmogorov-Smirnova Shapiro-Wilk
Statistic Df Sig. Statistic df Sig.
*. This is a lower bound of the true significance. a. Lilliefors Significance Correction
Test of Homogeneity of Variance
Levene Statistic df1 df2 Sig.
jumlah_leukosit
Based on Mean 5.579 3 20 .006
Based on Median 3.429 3 20 .037
Based on Median and with adjusted df
3.429 3 11.321 .055
Based on trimmed mean 5.408 3 20 .007
Hasil: Data tidak homogeny
Kruskal-Wallis Test
Ranks
Hasil: P<0,05 : Berbeda nyata
Uji antar perlakuan dengan Mann-Whitney
Test
Mann-Whitney Test
Ranks
Test Statisticsa,b
jumlah_leukosit Chi-Square 17.638
df 3
Asymp. Sig. .001 a. Kruskal Wallis Test
b. Grouping Variable: perlakuan
Test Statisticsa
jumlah_leukosit
Mann-Whitney U .000
Wilcoxon W 21.000
Z -2.882
Asymp. Sig. (2-tailed) .004 Exact Sig. [2*(1-tailed
Sig.)]
.002b
a. Grouping Variable: perlakuan b. Not corrected for ties.
Test Statisticsa
jumlah_leukosit
Mann-Whitney U .000
Wilcoxon W 21.000
Z -2.882
Asymp. Sig. (2-tailed) .004 Exact Sig. [2*(1-tailed
Sig.)]
.002b
Mann-Whitney Test
Mann-Whitney Test
Ranks
Mann-Whitney Test
Ranks
Mann-Whitney Test
Ranks
Mann-Whitney Test
Ranks
b. Not corrected for ties.
Test Statisticsa
jumlah_leukosit
Mann-Whitney U .000
Wilcoxon W 21.000
Z -2.887
Asymp. Sig. (2-tailed) .004 Exact Sig. [2*(1-tailed
Sig.)]
.002b
a. Grouping Variable: perlakuan b. Not corrected for ties.
Test Statisticsa
jumlah_leukosit
Mann-Whitney U 13.500
Wilcoxon W 34.500
Z -.722
Asymp. Sig. (2-tailed) .470 Exact Sig. [2*(1-tailed
Sig.)]
.485b
a. Grouping Variable: perlakuan b. Not corrected for ties.
Test Statisticsa
jumlah_leukosit
Mann-Whitney U 1.000
Wilcoxon W 22.000
Z -2.727
Asymp. Sig. (2-tailed) .006 Exact Sig. [2*(1-tailed
Sig.)]
.004b
a. Grouping Variable: perlakuan b. Not corrected for ties.
Test Statisticsa
jumlah_leukosit
Mann-Whitney U 5.500
Wilcoxon W 26.500
Z -2.009
Asymp. Sig. (2-tailed) .045 Exact Sig. [2*(1-tailed
Sig.)]
.041b
P0 & P1 = 0,004 (berbeda nyata) P1 & P2 = 0,470 (tidak berbeda nyata)
P0 & P2 = 0,004 (berbeda nyata)
P1 & P3 = 0,006 (berbeda nyata)
P0 & P3 = 0,004 (berbeda nyata)
P2 & P3 = 0,045 berbeda nyata)
9. Analisis Data Hitung Jenis Limfosit Jantan (
Rattus norvegicus
) Galur
Wistar
Tests of Normality
perlakuan Kolmogorov-Smirnova Shapiro-Wilk
Statistic Df Sig. Statistic Df Sig.
limfosit
Perlakuan0 .409 6 .002 .740 6 .016
Perlakuan1 .272 6 .186 .846 6 .146
Perlakuan2 .202 6 .200* .959 6 .811
Perlakuan3 .236 6 .200* .865 6 .208
*. This is a lower bound of the true significance. a. Lilliefors Significance Correction
Test of Homogeneity of Variance
Levene Statistic df1 df2 Sig.
limfosit
Based on Mean .898 3 20 .459
Based on Median .761 3 20 .529
Based on Median and with adjusted df .761 3 12.844 .536
Based on trimmed mean .849 3 20 .483
Hasil: Data tidak normal tetapi homogeny
Ditransformed
“Natural log”
Tests of Normality
Perlakuan Kolmogorov-Smirnova Shapiro-Wilk
Statistic Df Sig. Statistic df Sig.
limfosit
Perlakuan0 .409 6 .002 .740 6 .016
Perlakuan1 .272 6 .186 .846 6 .146
Perlakuan2 .202 6 .200* .959 6 .811
Perlakuan3 .236 6 .200* .865 6 .208
*. This is a lower bound of the true significance. a. Lilliefors Significance Correction
Test of Homogeneity of Variance
Levene Statistic df1 df2 Sig.
limfosit
Based on Mean .804 3 20 .506
Based on Median .692 3 20 .568
Based on Median and with adjusted df .692 3 12.780 .573
Based on trimmed mean .755 3 20 .532
Di transformed kembali “1/square root”
Tests of Normality
Perlakuan Kolmogorov-Smirnova Shapiro-Wilk
Statistic Df Sig. Statistic df Sig.
limfosit
Perlakuan0 .409 6 .002 .740 6 .016
Perlakuan1 .272 6 .186 .846 6 .146
Perlakuan2 .202 6 .200* .959 6 .811
perlakuan3 .236 6 .200* .865 6 .208
*. This is a lower bound of the true significance. a. Lilliefors Significance Correction
Test of Homogeneity of Variance
Levene Statistic df1 df2 Sig.
limfosit
Based on Mean .780 3 20 .519
Based on Median .660 3 20 .586
Based on Median and with adjusted df .660 3 12.688 .592
Based on trimmed mean .726 3 20 .548
Hasil: Data tidak normal tetapi homogeny
Ditransformed kembali “Reciprocal”
Tests of Normality
Perlakuan Kolmogorov-Smirnova Shapiro-Wilk
Statistic Df Sig. Statistic df Sig.
limfosit
Perlakuan0 .409 6 .002 .740 6 .016
Perlakuan1 .272 6 .186 .846 6 .146
Perlakuan2 .202 6 .200* .959 6 .811
Perlakuan3 .236 6 .200* .865 6 .208
*. This is a lower bound of the true significance. a. Lilliefors Significance Correction
Test of Homogeneity of Variance
Levene Statistic df1 df2 Sig.
limfosit
Based on Mean .760 3 20 .530
Based on Median .630 3 20 .604
Based on Median and with adjusted df .630 3 12.571 .609
Based on trimmed mean .701 3 20 .562
Hasil: Data tetap tidak normal tetapi homogeny
Kruskal-Wallis Test
Ranks
Perlakuan N Mean Rank
limfosit
Perlakuan0 6 16.25
Perlakuan1 6 15.50
Perlakuan2 6 12.67
Perlakuan3 6 5.58
Total 24
Hasil: P<0,05 : Berbeda nyata
Uji antar perlakuan dengan uji Mann-Whitney
Test Statisticsa,b
limfosit Chi-Square 8.564
df 3
Mann-Whitney Test
Mann-Whitney Test
Ranks
Mann-Whitney Test
Ranks
Mann-Whitney Test
Ranks
Mann-Whitney Test
Ranks
Test Statisticsa
limfosit Mann-Whitney U 14.000
Wilcoxon W 35.000
Z -.647
Asymp. Sig. (2-tailed) .517 Exact Sig. [2*(1-tailed Sig.)] .589b
a. Grouping Variable: perlakuan b. Not corrected for ties.
Test Statisticsa
limfosit Mann-Whitney U 11.500
Wilcoxon W 32.500
Z -1.060
Asymp. Sig. (2-tailed) .289 Exact Sig. [2*(1-tailed Sig.)] .310b
a. Grouping Variable: perlakuan b. Not corrected for ties.
Test Statisticsa
limfosit Mann-Whitney U 6.000
Wilcoxon W 27.000
Z -1.939
Asymp. Sig. (2-tailed) .053 Exact Sig. [2*(1-tailed Sig.)] .065b
a. Grouping Variable: perlakuan b. Not corrected for ties.
Test Statisticsa
limfosit Mann-Whitney U 14.000
Wilcoxon W 35.000
Z -.643
Asymp. Sig. (2-tailed) .520 Exact Sig. [2*(1-tailed Sig.)] .589b
a. Grouping Variable: perlakuan b. Not corrected for ties.
Test Statisticsa
limfosit
Mann-Whitney U .000
Wilcoxon W 21.000
Z -2.898
Asymp. Sig. (2-tailed) .004 Exact Sig. [2*(1-tailed Sig.)] .002b
Mann-Whitney Test
Ranks
Perlakuan N Mean Rank
Sum of Ranks
limfosit
Perlakuan2 6 8.42 50.50 Perlakuan3 6 4.58 27.50
Total 12
P0 & P1= 0,0517 (tidak berbeda nyata) P1 & P2= 0,520 (tidak berbeda nyata)
P0 & P2= 0,289 (tidak berbeda nyata) P1 & P3= 0,004 (berbeda nyata)
P0 & P3= 0,530 (tidak berbeda nyata) P2 & P3= 0,065 (tidak berbeda nyata)
10. Analisis Data Hitung Jenis Neutrofil Tikus Jantan (
Rattus norvegicus
)
Galur Wistar
Tests of Normality
perlakuan Kolmogorov-Smirnova Shapiro-Wilk
Statistic Df Sig. Statistic df Sig.
Neutrofil
Perlakuan0 .207 6 .200* .888 6 .307
Perlakuan1 .207 6 .200* .969 6 .888
Perlakuan2 .281 6 .150 .909 6 .430
Perlakuan3 .306 6 .083 .843 6 .137
*. This is a lower bound of the true significance. a. Lilliefors Significance Correction
Test of Homogeneity of Variance
Levene Statistic df1 df2 Sig.
Neutrofil
Based on Mean 1.983 3 20 .149
Based on Median .769 3 20 .525
Based on Median and with adjusted df .769 3 11.455 .534
Based on trimmed mean 1.808 3 20 .178
Hasil: Data normal dan homogeny
Oneway
ANOVA
neutrofil
Sum of Squares Df Mean Square F Sig. Between Groups 412.333 3 137.444 3.921 .024 Within Groups 701.000 20 35.050
Total 1113.333 23
Test Statisticsa
limfosit Mann-Whitney U 6.500
Wilcoxon W 27.500
Z -1.848
Asymp. Sig. (2-tailed) .065 Exact Sig. [2*(1-tailed Sig.)] .065b
Post Hoc Tests
Multiple Comparisons
Dependent Variable: neutrofil Bonferroni
(I) perlakuan (J) perlakuan Mean Difference (I-J)
Std. Error Sig. 95% Confidence Interval Lower Bound Upper Bound
Perlakuan0
Perlakuan1 -.16667 3.41809 1.000 -10.1718 9.8385 Perlakuan2 -2.33333 3.41809 1.000 -12.3385 7.6718 Perlakuan3 -10.16667* 3.41809 .045 -20.1718 -.1615
Perlakuan1
Perlakuan0 .16667 3.41809 1.000 -9.8385 10.1718 Perlakuan2 -2.16667 3.41809 1.000 -12.1718 7.8385 Perlakuan3 -10.00000 3.41809 .050 -20.0052 .0052
Perlakuan2
Perlakuan0 2.33333 3.41809 1.000 -7.6718 12.3385 Perlakuan1 2.16667 3.41809 1.000 -7.8385 12.1718 Perlakuan3 -7.83333 3.41809 .197 -17.8385 2.1718
Perlakuan3
Perlakuan0 10.16667* 3.41809 .045 .1615 20.1718
Perlakuan1 10.00000 3.41809 .050 -.0052 20.0052 Perlakuan2 7.83333 3.41809 .197 -2.1718 17.8385 *. The mean difference is significant at the 0.05 level.
P0 & P1 = 1,0 (tidak berbeda nyata) P1 & P2 = 1,0 (tidak berbeda nyata)
P0 & P2 = 1,0 (tidak berbeda nyata) P1 & P3 = 0,050 (berbeda nyata)
P0 & P3 = 0,045 (berbeda nyata)
P2 & P3 = 0,197 (tidak berbeda nyata)
11. Analisis Data Hitung Jenis Monosit Tikus Jantan (
Rattus norvegicus
)
Galur Wistar
Tests of Normality
perlakuan Kolmogorov-Smirnova Shapiro-Wilk
Statistic Df Sig. Statistic df Sig.
Monosit
Perlakuan0 .183 6 .200* .940 6 .660
Perlakuan1 .204 6 .200* .902 6 .389
Perlakuan2 .190 6 .200* .913 6 .459
Perlakuan3 .237 6 .200* .927 6 .554
*. This is a lower bound of the true significance. a. Lilliefors Significance Correction
Test of Homogeneity of Variance
Levene Statistic df1 df2 Sig.
Monosit
Based on Mean 2.406 3 20 .097
Based on Median 2.295 3 20 .109
Based on Median and with adjusted df 2.295 3 17.597 .113
Based on trimmed mean 2.402 3 20 .098
Hasil: Data normal dan homogeny
Oneway
ANOVA
monosit
Sum of Squares Df Mean Square F Sig.
Between Groups 5.458 3 1.819 .398 .756
Within Groups 91.500 20 4.575
Total 96.958 23
12. Analis Data Hitung Jenis Eosinofil Tikus Jantan (
Rattus norvegicus
)
Galur Wistar
Tests of Normality
Perlakuan Kolmogorov-Smirnova Shapiro-Wilk
Statistic df Sig. Statistic df Sig.
eosinofil
Perlakuan0 .492 6 .000 .496 6 .000
Perlakuan1 .254 6 .200* .866 6 .212
Perlakuan2 .492 6 .000 .496 6 .000
Perlakuan3 .319 6 .056 .683 6 .004
*. This is a lower bound of the true significance. a. Lilliefors Significance Correction
Test of Homogeneity of Variance
Levene Statistic df1 df2 Sig.
eosinofil
Based on Mean 1.487 3 20 .248
Based on Median 1.404 3 20 .271
Based on Median and with adjusted df 1.404 3 13.779 .284
Based on trimmed mean 1.703 3 20 .198
Hasil: Data tidak normal tetapi homogeny
Ditransformed “natural log”
Tests of Normality
Perlakuan Kolmogorov-Smirnova Shapiro-Wilk
Statistic Df Sig. Statistic Df Sig.
eosinofil
Perlakuan0 .492 6 .000 .496 6 .000
Perlakuan1 .254 6 .200* .866 6 .212
Perlakuan2 .492 6 .000 .496 6 .000
Perlakuan3 .319 6 .056 .683 6 .004
*. This is a lower bound of the true significance. a. Lilliefors Significance Correction
Hasil: Data tidak normal
Ditransformed “1/square root”
Tests of Normality
Perlakuan Kolmogorov-Smirnova Shapiro-Wilk
Statistic df Sig. Statistic Df Sig.
eosinofil
Perlakuan0 .492 6 .000 .496 6 .000
Perlakuan1 .254 6 .200* .866 6 .212
Perlakuan2 .492 6 .000 .496 6 .000
Perlakuan3 .319 6 .056 .683 6 .004
*. This is a lower bound of the true significance. a. Lilliefors Significance Correction
Ditransformed “Reciprocal”
Tests of Normality
Perlakuan Kolmogorov-Smirnova Shapiro-Wilk
Statistic df Sig. Statistic Df Sig.
*. This is a lower bound of the true significance. a. Lilliefors Significance Correction
Kruskal-Wallis Test
Ranks
Hasil: P< 0,05: Berbeda nyata
Uji Antar perlakuan dengan Uji Mann-Whitney
Mann-Whitney Test
Ranks
Mann-Whitney Test
Ranks
Mann-Whitney Test
Ranks
Test Statisticsa,b
Eosinophi l Chi-Square 8.520
Df 3
Asymp. Sig. .036 a. Kruskal Wallis Test b. Grouping Variable: perlakuan
Test Statisticsa
eosinofil Mann-Whitney U 5.000
Wilcoxon W 26.000
Z -2.272
Asymp. Sig. (2-tailed) .023 Exact Sig. [2*(1-tailed Sig.)] .041b
a. Grouping Variable: perlakuan b. Not corrected for ties.
Test Statisticsa
eosinofil Mann-Whitney U 12.000
Wilcoxon W 33.000
Z -1.173
Asymp. Sig. (2-tailed) .241 Exact Sig. [2*(1-tailed Sig.)] .394b
Mann-Whitney Test
Mann-Whitney Test
Ranks
Mann-Whitney Test
Ranks
13. Analisis Data Hitung Jenis Basofil Tikus Jantan (
Rattus norvegicus
)
Galur Wistar
Tests of Normality
Perlakuan Kolmogorov-Smirnova Shapiro-Wilk
Statisti
a. Lilliefors Significance Correction
Test Statisticsa
eosinofil Mann-Whitney U 5.000
Wilcoxon W 26.000
Z -2.272
Asymp. Sig. (2-tailed) .023 Exact Sig. [2*(1-tailed Sig.)] .041b
a. Grouping Variable: perlakuan b. Not corrected for ties.
Test Statisticsa
eosinofil Mann-Whitney U 9.000
Wilcoxon W 30.000
Z -1.573
Asymp. Sig. (2-tailed) .116 Exact Sig. [2*(1-tailed Sig.)] .180b
a. Grouping Variable: perlakuan b. Not corrected for ties.
Test Statisticsa
eosinofil Mann-Whitney U 12.000
Wilcoxon W 33.000
Z -1.173
Asymp. Sig. (2-tailed) .241 Exact Sig. [2*(1-tailed Sig.)] .394b
Test of Homogeneity of Variance
Levene Statistic df1 df2 Sig.
Basofil
Based on Mean 1.190 3 20 .339
Based on Median 1.010 3 20 .409
Based on Median and with adjusted df 1.010 3 11.135 .425
Based on trimmed mean 1.180 3 20 .342
Hasil: Data tidak normal tetapi homogeny
Ditransformed “natural log”
Tests of Normality
Perlakuan Kolmogorov-Smirnova Shapiro-Wilk
Statisti c
df Sig. Statistic df Sig.
Basofil
Perlakuan0 .293 6 .117 .822 6 .091
Perlakuan1 .277 6 .168 .773 6 .033
Perlakuan2 .319 6 .056 .683 6 .004
Perlakuan3 .333 6 .036 .827 6 .101
a. Lilliefors Significance Correction
Hasil: Data tidak normal
Ditansformed “1/square root”
Tests of Normality
Perlakuan Kolmogorov-Smirnova Shapiro-Wilk
Statistic df Sig. Statistic df Sig.
basofil
Perlakuan0 .293 6 .117 .822 6 .091
Perlakuan1 .277 6 .168 .773 6 .033
Perlakuan2 .319 6 .056 .683 6 .004
Perlakuan3 .333 6 .036 .827 6 .101
a. Lilliefors Significance Correction
Hasil: Data tidak normal
Ditansformed “Reciprocal”
Tests of Normality
Perlakuan Kolmogorov-Smirnova Shapiro-Wilk
Statistic df Sig. Statistic df Sig.
basofil
Perlakuan0 .293 6 .117 .822 6 .091
Perlakuan1 .277 6 .168 .773 6 .033
Perlakuan2 .319 6 .056 .683 6 .004
Perlakuan3 .333 6 .036 .827 6 .101
Kruskal-Wallis Test
Hasil: P>0,05: Tidak berbeda nyata
14. Analisis Data Berat Badan Tikus Jantan (
Rattus norvegicus
) Galur
Wistar
Tests of Normality
berat_badan Kolmogorov-Smirnova Shapiro-Wilk
Statistic df Sig. Statistic df Sig.
perlakuan
1.00 .197 6 .200* .925 6 .546
2.00 .184 6 .200* .971 6 .897
3.00 .256 6 .200* .939 6 .654
4.00 .255 6 .200* .859 6 .186
*. This is a lower bound of the true significance. a. Lilliefors Significance Correction
Test of Homogeneity of Variance
Levene Statistic df1 df2 Sig.
perlakuan
Based on Mean 3.318 3 20 .041
Based on Median 1.799 3 20 .180
Based on Median and with adjusted df 1.799 3 6.517 .241
Based on trimmed mean 2.963 3 20 .057
Hasil: Data Normal tetapi tidak homogeny
Ditransformed “Natural Log
Tests of Normality
berat_badan Kolmogorov-Smirnova Shapiro-Wilk
Statistic df Sig. Statistic df Sig.
perlakuan
1.00 .197 6 .200* .925 6 .546
2.00 .184 6 .200* .971 6 .897
3.00 .256 6 .200* .939 6 .654
4.00 .255 6 .200* .859 6 .186
*. This is a lower bound of the true significance. a. Lilliefors Significance Correction
Test of Homogeneity of Variance
Levene Statistic df1 df2 Sig.
perlakuan
Based on Mean 2.149 3 20 .126
Based on Median 1.405 3 20 .271
Based on Median and with adjusted df 1.405 3 8.581 .306
Based on trimmed mean 1.978 3 20 .150
Hasil: Data Normal dan Homogen
Test Statisticsa,b
Basofil Chi-Square 1.688
df 3
Asymp. Sig. .640 a. Kruskal Wallis Test b. Grouping Variable: perlakuan
Ranks
Perlakuan N Mean Rank
basofil
Perlakuan0 6 11.83
Perlakuan1 6 12.08
Perlakuan2 6 10.75
Perlakuan3 6 15.33
Oneway
ANOVA
perlakuan
Sum of Squares df Mean Square F Sig.
Between Groups 50532.355 3 16844.118 13.706 .000
Within Groups 24579.490 20 1228.974
Total 75111.845 23
Post Hoc Tests
Multiple Comparisons
Dependent Variable: perlakuan
Bonferroni
(I) berat_badan (J)
berat_
badan
Mean Difference
(I-J)
Std. Error Sig. 95% Confidence Interval
Lower Bound Upper
Bound
P0
0.00 103.50000* 20.24001 .000 44.2551 162.7449
1.00 54.05000 20.24001 .088 -5.1949 113.2949
2.00 -11.38333 20.24001 1.000 -70.6283 47.8616
P1
3.00 -103.50000* 20.24001 .000 -162.7449 -44.2551
2.00 -49.45000 20.24001 .144 -108.6949 9.7949
3.00 -114.88333* 20.24001 .000 -174.1283 -55.6384
P2
0.00 -54.05000 20.24001 .088 -113.2949 5.1949
1.00 49.45000 20.24001 .144 -9.7949 108.6949
3.00 -65.43333* 20.24001 .025 -124.6783 -6.1884
P3
0.00 11.38333 20.24001 1.000 -47.8616 70.6283
1.00 114.88333* 20.24001 .000 55.6384 174.1283
2.00 65.43333* 20.24001 .025 6.1884 124.6783
*. The mean difference is significant at the 0.05 level.