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Pengaruh Kebisingan Terhadap Jumlah Leukosit dan Hitung Jenis Leukosit Tikus Jantan (Rattus norvegicus) Galur Wistar

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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

(2)

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

(3)

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

(4)

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

(5)

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

(6)

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

(7)

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

(8)

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

(9)

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

(10)

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

(11)

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)

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

(13)

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

(14)

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

(15)

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

(16)

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

(17)

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.

Gambar

Tabel Rata-Rata Jumlah Leukosit Tikus Jantan (Rattus norvegicus) Galur Wistar
Tabel Data Hitung Jenis Neutrofil Tikus Jantan (Rattus norvegicus) Galur Wistar
Tabel Data Hitung Jenis Basofil Jantan (Rattus norvegicus) Galur Wistar

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