05.70.0132 Erni Yanti - Soegijapranata Catholic Universityrepository.unika.ac.id/7506/8/05.70.0132...
Transcript of 05.70.0132 Erni Yanti - Soegijapranata Catholic Universityrepository.unika.ac.id/7506/8/05.70.0132...
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susu pasteurisasi
0
5
10
15
20
25
30
35
40
45
50
0 2 4 6 8 10
lama penyimpanan (hari)
reduktase (jam)
pH
coliform (CFU/ml)
TPC (log CFU/ml)
7. LAMPIRAN
Lampiran 1. Hubungan antara perlakuan dengan parameter yang diuji
• Grafik hubungan antara perlakuan susu pasteurisasi + LPS dengan parameter yang
diuji ( analisa reduktase, pH, TPC, dan bakteri coliform).
susu pasteurisasi + LPS
0
5
10
15
20
25
30
0 2 4 6 8 10
lama penyimpanan (hari)
reduktase (jam)pHcoliform (CFU/ml)TPC (log CFU/ml)
• Grafik hubungan antara perlakuan susu pasteurisasi dengan parameter yang diuji (
analisa reduktase, pH, TPC, dan bakteri coliform).
coliform
pH TPC reduktase
coliform
pH TPC reduktase
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Lampiran 2. Hubungan antara jumlah koloni dengan waktu reduksi dalam uji reduktase
Waktu reduksi biru metilen (jam)
Perkiraan jumlah koloni (x 104)
0,5 – 3,5 80 atau lebih 4 40
4,5 25 5 15
5,5 10 6 6
6,5 – 8 2,5 8 1
Lampiran 3. Uji Beda nyata analisa reduktase antar batch
Independent Samples Test
.167 .687 .127 22 .900 .12500 .98208 -1.91172 2.16172
.127 21.886 .900 .12500 .98208 -1.91233 2.16233
.167 .687 -.121 22 .905 -.12500 1.03284 -2.26698 2.01698
-.121 21.979 .905 -.12500 1.03284 -2.26710 2.01710
.262 .614 .154 22 .879 .12500 .81097 -1.55685 1.80685
.154 21.845 .879 .12500 .81097 -1.55754 1.80754
.065 .802 .203 16 .842 .16667 .82074 -1.57322 1.90655
.203 15.998 .842 .16667 .82074 -1.57324 1.90657
. . .000 10 1.000 .00000 .47434 -1.05690 1.05690
.000 10.000 1.000 .00000 .47434 -1.05690 1.05690
Equal variancesassumedEqual variancesnot assumedEqual variancesassumedEqual variancesnot assumedEqual variancesassumedEqual variancesnot assumedEqual variancesassumedEqual variancesnot assumedEqual variancesassumedEqual variancesnot assumed
reduktase_0
reduktase_2
reduktase_4
reduktase_6
reduktase_8
F 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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Lampiran 4. Uji Beda nyata analisa pH antar batch Lampiran 6. Uji beda nyata analisa koliform antar batch Lampiran 5. Uji Beda nyata analisa coliform antar batch
Independent Samples Test
.721 .405 4.829 22 .000 .08417 .01743 .04802 .12031
4.829 19.637 .000 .08417 .01743 .04777 .12056
1.212 .283 -.235 22 .816 -.02167 .09206 -.21259 .16926
-.235 20.391 .816 -.02167 .09206 -.21347 .17013
1.112 .303 -.603 22 .552 -.12083 .20026 -.53615 .29449
-.603 21.539 .553 -.12083 .20026 -.53667 .29500
.082 .778 -.232 16 .820 -.04333 .18690 -.43954 .35287
-.232 15.673 .820 -.04333 .18690 -.44021 .35354
.109 .748 -2.709 10 .022 -.09000 .03322 -.16401 -.01599
-2.709 9.826 .022 -.09000 .03322 -.16419 -.01581
Equal variancesassumedEqual variancesnot assumedEqual variancesassumedEqual variancesnot assumedEqual variancesassumedEqual variancesnot assumedEqual variancesassumedEqual variancesnot assumedEqual variancesassumedEqual variancesnot assumed
pH_0
pH_2
pH_4
pH_6
pH_8
F 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
.003 .956 .024 6 .982 .05000 2.08746 -5.05784 5.15784
.024 5.990 .982 .05000 2.08746 -5.05989 5.15989
.018 .898 .071 6 .945 .75000 10.51883 -24.98866 26.48866
.071 5.993 .945 .75000 10.51883 -24.99606 26.49606
.000 1.000 .000 6 1.000 .37500 843.40136 -2063.35 2064.104
.000 6.000 1.000 .37500 843.40136 -2063.35 2064.104
.000 .999 .001 4 1.000 .63333 1119.1403 -3106.60 3107.865
.001 4.000 1.000 .63333 1119.1403 -3106.60 3107.865
. . .000 2 1.000 -.50000 1677.6109 -7218.68 7217.677
.000 2.000 1.000 -.50000 1677.6109 -7218.68 7217.678
Equal variancesassumedEqual variancesnot assumedEqual variancesassumedEqual variancesnot assumedEqual variancesassumedEqual variancesnot assumedEqual variancesassumedEqual variancesnot assumedEqual variancesassumedEqual variancesnot assumed
coliform_0
coliform_2
coliform_4
coliform_6
coliform_8
F 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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Lampiran 6. Uji Beda nyata analisa stabilitas emulsi antar batch Lampiran 7. Uji normalitas analisa reduktase
Tests of Normalityb,c,d
.319 6 .056 .683 6 .004sampelsegarreduktase_0
Statistic df Sig. Statistic df Sig.Kolmogorov-Smirnova Shapiro-Wilk
Lilliefors Significance Correctiona.
reduktase_0 is constant when sampel = segar + LPS. It has been omitted.b.
reduktase_0 is constant when sampel = pasteurisasi. It has been omitted.c.
reduktase_0 is constant when sampel = pasteurisasi + LPS. It has been omitted.d.
Tests of Normalityb,c,d
.319 6 .056 .683 6 .004sampelsegar + LPSreduktase_2
Statistic df Sig. Statistic df Sig.Kolmogorov-Smirnova Shapiro-Wilk
Lilliefors Significance Correctiona.
reduktase_2 is constant when sampel = segar. It has been omitted.b.
reduktase_2 is constant when sampel = pasteurisasi. It has been omitted.c.
reduktase_2 is constant when sampel = pasteurisasi + LPS. It has been omitted.d.
Independent Samples Test
.127 .725 -2.150 22 .043 -.04167 .01938 -.08186 -.00147
-2.150 21.779 .043 -.04167 .01938 -.08188 -.00145
.121 .731 -.810 22 .427 -.02083 .02572 -.07416 .03250
-.810 20.606 .427 -.02083 .02572 -.07437 .03271
.257 .617 -.152 22 .881 -.00417 .02750 -.06119 .05286
-.152 21.527 .881 -.00417 .02750 -.06126 .05293
.006 .939 .283 22 .780 .00833 .02946 -.05277 .06944
.283 21.834 .780 .00833 .02946 -.05280 .06946
Equal variancesassumedEqual variancesnot assumedEqual variancesassumedEqual variancesnot assumedEqual variancesassumedEqual variancesnot assumedEqual variancesassumedEqual variancesnot assumed
krim_2
krim_4
krim_6
krim_8
F 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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Tests of Normality
.213 6 .200* .947 6 .715
.303 6 .089 .778 6 .037
.293 6 .117 .915 6 .473
.202 6 .200* .938 6 .642
sampelsegarsegar + LPSpasteurisasipasteurisasi + LPS
pH_2Statistic df Sig. Statistic df Sig.
Kolmogorov-Smirnova Shapiro-Wilk
This is a lower bound of the true significance.*.
Lilliefors Significance Correctiona.
Tests of Normality
.170 6 .200* .955 6 .778
.238 6 .200* .881 6 .272
.292 6 .119 .836 6 .121
.186 6 .200* .960 6 .817
sampelsegarsegar + LPSpasteurisasipasteurisasi + LPS
pH_0Statistic df Sig. Statistic df Sig.
Kolmogorov-Smirnova Shapiro-Wilk
This is a lower bound of the true significance.*.
Lilliefors Significance Correctiona.
Tests of Normalityb,c,d
.319 6 .056 .683 6 .004sampelpasteurisasi + LPSreduktase_4
Statistic df Sig. Statistic df Sig.Kolmogorov-Smirnova Shapiro-Wilk
Lilliefors Significance Correctiona.
reduktase_4 is constant when sampel = segar. It has been omitted.b.
reduktase_4 is constant when sampel = segar + LPS. It has been omitted.c.
reduktase_4 is constant when sampel = pasteurisasi. It has been omitted.d.
Tests of Normalityb,c,d
.319 6 .056 .683 6 .004sampelpasteurisasireduktase_6
Statistic df Sig. Statistic df Sig.Kolmogorov-Smirnova Shapiro-Wilk
Lilliefors Significance Correctiona.
There are no valid cases for reduktase_6. Statistics cannot be computed.b.
reduktase_6 is constant when sampel = segar + LPS. It has been omitted.c.
reduktase_6 is constant when sampel = pasteurisasi + LPS. It has been omitted.d.
Lampiran 8.Uji normalitas analisa pH
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Tests of Normality
.280 6 .155 .824 6 .095
.276 6 .170 .849 6 .155
.247 6 .200* .933 6 .600
.281 6 .149 .805 6 .065
sampelsegarsegar + LPSpasteurisasipasteurisasi + LPS
pH_4Statistic df Sig. Statistic df Sig.
Kolmogorov-Smirnova Shapiro-Wilk
This is a lower bound of the true significance.*.
Lilliefors Significance Correctiona.
Tests of Normality b
.315 6 .064 .797 6 .055
.249 6 .200* .881 6 .273
.221 6 .200* .919 6 .497
sampelsegar + LPSpasteurisasipasteurisasi + LPS
pH_6Statistic df Sig. Statistic df Sig.
Kolmogorov-Smirnov a Shapiro-Wilk
This is a lower bound of the true significance.*.
Lilliefors Significance Correctiona.
Tests of Normalityb
.215 6 .200* .902 6 .386
.280 6 .154 .793 6 .050
sampelpasteurisasipasteurisasi + LPS
pH_8Statistic df Sig. Statistic df Sig.
Kolmogorov-Smirnova Shapiro-Wilk
This is a lower bound of the true significance.*.
Lilliefors Significance Correctiona.
Tests of Normality
.202 6 .200* .853 6 .167
.333 6 .036 .827 6 .101
.202 6 .200* .853 6 .167
.333 6 .036 .827 6 .101
sampelsegarsegar + LPSpasteurisasipasteurisasi + LPS
krim_2Statistic df Sig. Statistic df Sig.
Kolmogorov-Smirnova Shapiro-Wilk
This is a lower bound of the true significance.*.
Lilliefors Significance Correctiona.
Lampiran 9. Uji Normalitas analisa stabilitas emulsi
Tests of Normality
.333 6 .036 .827 6 .101
.492 6 .000 .496 6 .000
.333 6 .036 .827 6 .101
.333 6 .036 .827 6 .101
sampelsegarsegar + LPSpasteurisasipasteurisasi + LPS
krim_4Statistic df Sig. Statistic df Sig.
Kolmogorov-Smirnova Shapiro-Wilk
Lilliefors Significance Correctiona.
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Tests of Normality
.202 6 .200* .853 6 .167
.333 6 .036 .827 6 .101
.333 6 .036 .827 6 .101
.254 6 .200* .866 6 .212
sampelsegarsegar + LPSpasteurisasipasteurisasi + LPS
krim_6Statistic df Sig. Statistic df Sig.
Kolmogorov-Smirnova Shapiro-Wilk
This is a lower bound of the true significance.*.
Lilliefors Significance Correctiona.
Tests of Normality
.333 6 .036 .827 6 .101
.333 6 .036 .827 6 .101
.333 6 .036 .827 6 .101
.202 6 .200* .853 6 .167
sampelsegarsegar + LPSpasteurisasipasteurisasi + LPS
krim_8Statistic df Sig. Statistic df Sig.
Kolmogorov-Smirnova Shapiro-Wilk
This is a lower bound of the true significance.*.
Lilliefors Significance Correctiona.
Lampiran 10. Tabel anova analisa reduktase
ANOVA
127.031 3 42.344 2258.333 .000.375 20 .019
127.406 23140.531 3 46.844 2498.333 .000
.375 20 .019140.906 23
86.531 3 28.844 1538.333 .000.375 20 .019
86.906 2348.250 2 24.125 965.000 .000
.375 15 .02548.625 17
6.750 1 6.750 . ..000 10 .000
6.750 11
Between GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotal
reduktase_0
reduktase_2
reduktase_4
reduktase_6
reduktase_8
Sum ofSquares df Mean Square F Sig.
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Lampiran 11. Tabel anova analisa pH
ANOVA
.026 3 .009 3.122 .049
.056 20 .003
.083 231.071 3 .357 141.195 .000
.051 20 .0031.122 235.236 3 1.745 239.542 .000
.146 20 .0075.381 232.456 2 1.228 274.905 .000
.067 15 .0042.523 17
.030 1 .030 10.949 .008
.027 10 .003
.057 11
Between GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotal
pH_0
pH_2
pH_4
pH_6
pH_8
Sum ofSquares df Mean Square F Sig.
Lampiran 12. Tabel anova analisa coliform
ANOVA
52.245 3 17.415 1393.200 .000.050 4 .013
52.295 71326.375 3 442.125 707.400 .000
2.500 4 .6251328.875 78535910 3 2845303.318 1.9E+07 .000
.585 4 .1468535911 77514849 2 3757424.542 5622082 .000
2.005 3 .6687514851 55628756 1 5628756.250 2.3E+07 .000
.500 2 .2505628757 3
Between GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotal
coliform_0
coliform_2
coliform_4
coliform_6
coliform_8
Sum ofSquares df Mean Square F Sig.
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Lampiran 13. Tabel anova analisa stabilitas emulsi
ANOVA
.000 3 .000 . .
.000 20 .000
.000 23
.030 3 .010 6.667 .003
.030 20 .001
.060 23
.073 3 .024 28.415 .000
.017 20 .001
.090 23
.073 3 .024 17.923 .000
.027 20 .001
.100 23
.090 3 .030 24.000 .000
.025 20 .001
.115 23
Between GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotal
krim_0
krim_2
krim_4
krim_6
krim_8
Sum ofSquares df Mean Square F Sig.
Lampiran 14. Tabel post hoc analisa reduktase
reduktase_0
Duncana
6 2.25006 4.00006 7.00006 8.0000
1.000 1.000 1.000 1.000
sampelsegarsegar + LPSpasteurisasipasteurisasi + LPSSig.
N 1 2 3 4Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 6.000.a.
reduktase_2
Duncana
6 1.00006 2.75006 6.00006 7.0000
1.000 1.000 1.000 1.000
sampelsegarsegar + LPSpasteurisasipasteurisasi + LPSSig.
N 1 2 3 4Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 6.000.a.
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reduktase_4
Duncana
6 .50006 1.50006 4.00006 5.2500
1.000 1.000 1.000 1.000
sampelsegarsegar + LPSpasteurisasipasteurisasi + LPSSig.
N 1 2 3 4Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 6.000.a.
reduktase_6
Duncana
6 .75006 2.75006 4.5000
1.000 1.000 1.000
sampelsegar + LPSpasteurisasipasteurisasi + LPSSig.
N 1 2 3Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 6.000.a.
reduktase_8
Duncana
6 1.50006 3.0000
1.000 1.000
sampelpasteurisasipasteurisasi + LPSSig.
N 1 2
Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 6.000.a.
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Lampiran 15. Tabel post hoc analisa pH
pH_0
Duncana
6 6.94506 6.9883 6.98836 6.9967 6.99676 7.0383
.125 .137
sampelsegarsegar + LPSpasteurisasipasteurisasi + LPSSig.
N 1 2Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 6.000.a.
pH_2
Duncana
6 6.39506 6.77676 6.90676 6.9150
1.000 1.000 .777
sampelsegarsegar + LPSpasteurisasipasteurisasi + LPSSig.
N 1 2 3Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 6.000.a.
pH_4
Duncana
6 5.73506 6.14336 6.79836 6.8550
1.000 1.000 .264
sampelsegarsegar + LPSpasteurisasi + LPSpasteurisasiSig.
N 1 2 3Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 6.000.a.
pH_6
Duncana
6 5.87336 6.48506 6.7567
1.000 1.000 1.000
sampelsegar + LPSpasteurisasipasteurisasi + LPSSig.
N 1 2 3Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 6.000.a.
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Lampiran 16.Tabel post hoc analisa coliform
coliform_0
Duncana
2 3.00002 3.00002 6.15002 9.1500
1.000 1.000 1.000
sampelpasteurisasipasteurisasi + LPSsegar + LPSsegarSig.
N 1 2 3Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 2.000.a.
coliform_2
Duncana
2 3.00002 3.00002 15.00002 34.5000
1.000 1.000 1.000
sampelpasteurisasipasteurisasi + LPSsegar + LPSsegarSig.
N 1 2 3Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 2.000.a.
coliform_4
Duncana
2 6.05002 9.20002 28.50002 2400.000
1.000 1.000 1.000 1.000
sampelpasteurisasi + LPSpasteurisasisegar + LPSsegarSig.
N 1 2 3 4Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 2.000.a.
coliform_6
Duncana
2 9.25002 43.00002 2400.000
1.000 1.000 1.000
sampelpasteurisasi + LPSpasteurisasisegar + LPSSig.
N 1 2 3Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 2.000.a.
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Lampiran 17. Tabel Post hoc analisa stabilitas emulsi
krim_2
Duncana
6 .60006 .65006 .65006 .7000
1.000 1.000 1.000
sampelpasteurisasi + LPSsegar + LPSpasteurisasisegarSig.
N 1 2 3Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 6.000.a.
krim_4
Duncana
6 .65006 .69176 .70006 .8000
1.000 .627 1.000
sampelpasteurisasi + LPSsegar + LPSpasteurisasisegarSig.
N 1 2 3Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 6.000.a.
krim_8
Duncana
6 .75006 .75006 .80006 .9000
1.000 1.000 1.000
sampelpasteurisasipasteurisasi + LPSsegar + LPSsegarSig.
N 1 2 3Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 6.000.a.
krim_6
Duncana
6 .70006 .75006 .79176 .8500
1.000 .064 1.000
sampelpasteurisasisegar + LPSpasteurisasi + LPSsegarSig.
N 1 2 3Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 6.000.a.
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Lampiran 18. Uji lama penyimpanan Tabel anova analisa reduktase
ANOVA
9.750 2 4.875 195.000 .000.375 15 .025
10.125 1741.531 3 13.844 738.333 .000
.375 20 .01941.906 23
123.000 4 30.750 2050.000 .000.375 25 .015
123.375 2994.800 4 23.700 1580.000 .000
.375 25 .01595.175 29
Between GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotal
segar
segar_LPS
pasteurisasi
pasteurisasi_LPS
Sum ofSquares df Mean Square F Sig.
Lampiran 19. Uji lama penyimpanan Tabel post hoc analisa reduktase
pasteurisasi
Duncana
6 1.50006 2.75006 4.00006 6.00006 7.0000
1.000 1.000 1.000 1.000 1.000
titik_kehari ke 8hari ke 6hari ke 4hari ke 2hari ke 0Sig.
N 1 2 3 4 5Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 6.000.a.
pasteurisasi_LPS
Duncana
6 3.00006 4.50006 5.25006 7.00006 8.0000
1.000 1.000 1.000 1.000 1.000
titik_kehari ke 8hari ke 6hari ke 4hari ke 2hari ke 0Sig.
N 1 2 3 4 5Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 6.000.a.
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segar_LPS
Duncana
6 .50006 1.50006 2.75006 4.0000
1.000 1.000 1.000 1.000
titik_kehari ke 6hari ke 4hari ke 2hari ke 0Sig.
N 1 2 3 4Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 6.000.a.
segar
Duncana
6 .50006 1.00006 2.2500
1.000 1.000 1.000
titik_kehari ke 4hari ke 2hari ke 0Sig.
N 1 2 3Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 6.000.a.
Lampiran 20. Uji lama penyimpanan Tabel anova analisa pH
ANOVA
4.404 2 2.202 323.694 .000.102 15 .007
4.506 174.938 3 1.646 365.448 .000
.090 20 .0055.028 232.315 4 .579 423.479 .000
.034 25 .0012.349 291.523 4 .381 78.900 .000
.121 25 .0051.644 29
Between GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotal
segar
segar_LPS
pasteurisasi
pasteurisasi_LPS
Sum ofSquares df Mean Square F Sig.
50
segar
Duncana
6 5.73506 6.39506 6.9450
1.000 1.000 1.000
titik_kehari ke 4hari ke 2hari ke 0Sig.
N 1 2 3Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 6.000.a.
Lampiran 21. Uji lama penyimpanan Tabel post hoc analisa pH
pasteurisasi
Duncana
6 6.27006 6.48506 6.85506 6.90676 6.9967
1.000 1.000 1.000 1.000 1.000
titik_kehari ke 8hari ke 6hari ke 4hari ke 2hari ke 0Sig.
N 1 2 3 4 5Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 6.000.a.
pasteurisasi_LPS
Duncana
6 6.37006 6.75676 6.79836 6.91506 7.0383
1.000 .309 1.000 1.000
titik_kehari ke 8hari ke 6hari ke 4hari ke 2hari ke 0Sig.
N 1 2 3 4Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 6.000.a.
segar_LPS
Duncana
6 5.87336 6.14336 6.77676 6.9883
1.000 1.000 1.000 1.000
titik_kehari ke 6hari ke 4hari ke 2hari ke 0Sig.
N 1 2 3 4Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 6.000.a.
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Lampiran 22. Uji lama penyimpanan Tabel anova analisa coliform
ANOVA
7541598 2 3770798.865 2.1E+07 .000.545 3 .182
7541598 58521758 3 2840585.861 4535866 .000
2.505 4 .6268521760 79106804 4 2276701.096 5472839 .000
2.080 5 .4169106806 9840.254 4 210.064 2059.446 .000
.510 5 .102840.764 9
Between GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotal
segar
segar_LPS
pasteurisasi
pasteurisasi_LPS
Sum ofSquares df Mean Square F Sig.
Lampiran 23. uji lama penyimpanan Tabel post hoc analisa coliform
pasteurisasi
Duncana
2 3.002 3.002 9.202 43.002 2400.00
1.000 1.000 1.000 1.000
titik_kehari ke 0hari ke 2hari ke 4hari ke 6hari ke 8Sig.
N 1 2 3 4Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 2.000.a.
pasteurisasi_LPS
Duncana
2 3.00002 3.00002 6.05002 9.25002 27.5000
1.000 1.000 1.000 1.000
titik_kehari ke 0hari ke 2hari ke 4hari ke 6hari ke 8Sig.
N 1 2 3 4Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 2.000.a.
52
segar_LPS
Duncana
2 6.152 15.002 28.502 2400.00
1.000 1.000 1.000 1.000
titik_kehari ke 0hari ke 2hari ke 4hari ke 6Sig.
N 1 2 3 4Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 2.000.a.
segar
Duncana
2 9.152 34.502 2400.00
1.000 1.000 1.000
titik_kehari ke 0hari ke 2hari ke 4Sig.
N 1 2 3Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 2.000.a.
Lampiran 24. Uji lama penyimpanan Tabel anova analisa stabilitas emulsi
ANOVA
3.300 4 .825 687.500 .000.030 25 .001
3.330 292.586 4 .647 946.220 .000
.017 25 .0012.603 292.382 4 .596 595.500 .000
.025 25 .0012.407 292.478 4 .620 571.923 .000
.027 25 .0012.505 29
Between GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotalBetween GroupsWithin GroupsTotal
segar
segar_LPS
pasteurisasi
pasteurisasi_LPS
Sum ofSquares df Mean Square F Sig.
53
segar
Duncana
6 .006 .706 .806 .856 .90
1.000 1.000 1.000 1.000 1.000
titik_kehari ke 0hari ke 2hari ke 4hari ke 6hari ke 8Sig.
N 1 2 3 4 5Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 6.000.a.
Lampiran 25. uji lama penyimpanan Tabel post hoc analisa stabilitas emulsi
segar_LPS
Duncana
6 .006 .656 .696 .756 .80
1.000 1.000 1.000 1.000 1.000
titik_kehari ke 0hari ke 2hari ke 4hari ke 6hari ke 8Sig.
N 1 2 3 4 5Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 6.000.a.
pasteurisasi
Duncana
6 .006 .656 .706 .706 .75
1.000 1.000 1.000 1.000
titik_kehari ke 0hari ke 2hari ke 4hari ke 6hari ke 8Sig.
N 1 2 3 4Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 6.000.a.
54
pasteurisasi_LPS
Duncana
6 .00006 .60006 .65006 .75006 .7917
1.000 1.000 1.000 1.000 1.000
titik_kehari ke 0hari ke 2hari ke 4hari ke 8hari ke 6Sig.
N 1 2 3 4 5Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.Uses Harmonic Mean Sample Size = 6.000.a.
Lampiran 26. SNI susu segar berdasarkan SNI 01-3141-1998
55
Lampiran 27. Standar Mutu Susu Pasteurisasi Menurut SNI 01-3951-1995 Karakteristik
syarat Cara pengujian
A B - Bau - Warna - Rasa - Kadar lemak, % (bobot/bobot)min. - Kadar padatan tanpa lemak, % (bobot/bobot) min. - Uji reduktase dengan methylen biru - Kadar protein, % (bobot/bobot) min. - Uji fosfatase - T.P.C. (Total Plate Count), ml,maks. - Coliform presumptive MPH/ml, maks. - Logam berbahaya : - As, (ppm) maks. - Pb, (ppm) maks. - Cu, (ppm) maks. - Zn. (ppm) maks. - Bahan pengawet - Pemantap - Zat warna - Zat penyedap cita
rasa
Khas khas khas 2,80
7,7
0
2,5
0 3 x 104
10
1
1
2 5
Sesuai dengan Peraturan Menteri Kesehatan R.I. No. 235/Men. Kes/Per/ IV/79
khas khas khas 1,50
7,5
0
2,5
0 3 x 104
10
1
1
2 5
Sesuai dengan Peraturan Menteri Kesehatan R.I. No. 235/Men. Kes/Per/ IV/79
Organoleptik Organoleptik Organoleptik
SP-SMP-248- 1980
SP-SMP-249- 1980
SP-SMP-251- 1980 SP-SMP- 79- 1975 SP-SMP-250- 1980 SP-SMP- 93- 1975 SP-SMP- 94- 1975 SP-SMP-193- 1977 Depkes S.I. 7 SP-SMP-197- 1977 Depkes S.I. 7 SP-SMP-247- 1980 SP-SMP-190- 1977 AOAC 25136-25142
Catatan : A = Susu pasteurisasi tanpa penyedap cita rasa B = Susu pasteurisasi diberi penyedap cita rasa