PENGARUH STEAM BLANCHING, HOT WATER BLANCHING, DAN SODIUM METABISULFIT TERHADAP LAJU PENGERINGAN DAN MUTU PRODUK UBI JALAR INSTAN KUNING (IPOMOEA BATATAS L.) - Unika Repository
Lampiran 1. Tabel Normalitas Kadar Amilosa Tests of Normality a
Kolmogorov-Smirnov Shapiro-Wilk Statistic df Sig. Statistic df Sig. KUKUS ,091 60 ,200* ,953 60 ,023 KERING
,159 60 ,001 ,935 60 ,003 *. This is a lower bound of the true significance.
a.
Lilliefors Significance Correction
Lampiran 2. Tabel Normalitas Kadar Vitamin A Tests of Normality a
Kolmogorov-Smirnov Shapiro-Wilk Statistic df Sig. Statistic df Sig. pretreat
,094 60 ,200* ,955 60 ,026 kukus ,071 60 ,200* ,962 60 ,057 kering ,072 60 ,200* ,963 60 ,065 *. This is a lower bound of the true significance.
a.
Lilliefors Significance Correction
Lampiran 3. Tabel Normalitas Kapasitas danLaju Rehidasi Ubi Jalar Kuning Instan
Tests of Normality aKolmogorov-Smirnov Shapiro-Wilk Statistic df Sig. Statistic df Sig. RC
,127 60 ,017 ,916 60 ,001 RR
,127 60 ,017 ,916 60 ,001 a. Lilliefors Significance Correction Lampiran 4. Tabel Normalitas Warna Tests of Normality
,103 60 ,184 ,944 60 ,009 ,144 60 ,003 ,936 60 ,004 ,117 60 ,041 ,910 60 ,000 ,113 60 ,053 ,946 60 ,011 ,098 60 ,200* ,952 60 ,019 ,138 60 ,006 ,936 60 ,004 ,161 60 ,000 ,919 60 ,001 ,155 60 ,001 ,920 60 ,001 ,179 60 ,000 ,843 60 ,000 ,146 60 ,003 ,855 60 ,000 ,124 60 ,023 ,957 60 ,033 ,231 60 ,000 ,826 60 ,000 ,099 60 ,200* ,956 60 ,031 ,127 60 ,018 ,930 60 ,002 ,130 60 ,013 ,924 60 ,001
L_krg a_krg b_krg BI_krg L_kus2 a_ku2s b_ku2s BI_kus2 L_rehidrasi a_rehidrasi b_rehidrasi BI_rehidrasi L_awal a_awal b_awal Statistic df Sig. Statistic df Sig.
Kolmogorov-Smirnov
a
Shapiro-Wilk This is a lower bound of the true significance.
- .
Lilliefors Significance Correction a.
Lampiran 5. Tabel Normalitas Total Perubahan Warna ( ∆E) Tests of Normality
,147 54 ,005 ,926 54 ,002 ,141 54 ,009 ,918 54 ,001 ,127 54 ,031 ,942 54 ,011
E_krg E_ku2s E_rehidrasi Statistic df Sig. Statistic df Sig.
Kolmogorov-Smirnov
a
Shapiro-Wilk Lilliefors Significance Correction a. Lampiran 6. Tabel Uji Beda Nyata Kadar Amilosa Pada Ubi Jalar Kuning Antar Batch Independent Samples Test
,000 ,999 ,061 58 ,952 ,00855457 ,14066454 -,273016 ,29012524 ,061 57,995 ,952 ,00855457 ,14066454 -,273017 ,29012577 ,008 ,929 -,095 58 ,925 -,01533923 ,16166001 -,338937 ,30825844
KUKUS F Sig.
Levene's Test for Equality of Variances t df Sig. (2-tailed) Mean
Difference Std. Error Difference Lower Upper 95% Confidence
Interval of the Difference t-test for Equality of Means
- ,095 57,995 ,925 -,01533923 ,16166001 -,338937 ,30825903 Equal variances assumed Equal variances not assumed Equal variances assumed Equal variances not assumed KERING
Lampiran 7. Tabel Uji Beda Nyata Kadar Vitamin A Pada Ubi Jalar Kuning Antar Batch Independent Samples Test
,003 ,954 ,087 58 ,931 79,129745 914,55747 -1751,56 1909,815 ,087 57,994 ,931 79,129745 914,55747 -1751,56 1909,819 ,001 ,975 ,049 58 ,961 35,520467 731,42479 -1428,59 1499,626 ,049 57,995 ,961 35,520467 731,42479 -1428,59 1499,629 ,001 ,974 ,004 58 ,997 3,5168770 840,55006 -1679,03 1686,061 ,004 57,996 ,997 3,5168770 840,55006 -1679,03 1686,063
Equal variances assumed Equal variances not assumed Equal variances assumed Equal variances not assumed Equal variances assumed Equal variances not assumed pretreat kukus kering F Sig.
Levene's Test for Equality of Variances t df Sig. (2-tailed) Mean
Difference Std. Error Difference Lower Upper 95% Confidence
Interval of the Difference t-test for Equality of Means Lampiran 8. Tabel Uji Beda Nyata Kapasitas dan Laju Rehidrasi Pada Ubi Jalar Kuning Antar Batch
Independent Samples Test
Levene's Test for
Equality of Variances t-test for Equality of Means
95% Confidence Interval of theDifference Mean Std. Error F Sig. t df Sig. (2-tailed) Difference Difference Lower Upper RC Equal variances
,000 ,985 -,064 58 ,949 -,0012289 ,0192660 -,0397941 ,0373362 assumed Equal variances
- ,064 58,000 ,949 -,0012289 ,0192660 -,0397941 ,0373362 not assumed RR Equal variances ,985
58 ,949 -,0001229 ,00192660 ******** ******** ,000 -,064 assumed Equal variances
- ,064 58,000 ,949 -,0001229 ******** ,00192660 ******** not assumed
Lampiran 9. Tabel Uji Beda Nyata Total Perubahan Warna Pada Ubi Jalar Kuning Antar Batch
Independent Samples Test
Levene's Test for Equality of Variances t-test for Equality of Means 95% Confidence Interval of the
Difference Mean Std. Error F Sig. t df Sig. (2-tailed) Difference Difference Lower Upper E_krg Equal variances
,003 ,953 ,110 52 ,913 ,10381 ,94764 -1,79778 2,00540 assumed Equal variances ,110 51,996 ,913 ,10381 ,94764 -1,79778 2,00540 not assumed E_ku2s Equal variances
,005 ,942 ,126 52 ,900 ,18166 1,44247 -2,71287 3,07619 assumed Equal variances ,126 51,992 ,900 ,18166 1,44247 -2,71288 3,07620 not assumed E_rehidrasi Equal variances
,008 ,930 ,069 52 ,945 ,05611 ,80830 -1,56586 1,67809 assumed Equal variances ,069 51,990 ,945 ,05611 ,80830 -1,56587 1,67810 not assumed
Interval of the Difference t-test for Equality of Means
Interval of the Difference t-test for Equality of Means
Difference Std. Error Difference Lower Upper 95% Confidence
Levene's Test for Equality of Variances t df Sig. (2-tailed) Mean
L_kus2 a_ku2s b_ku2s F Sig.
Equal variances assumed Equal variances not assumed Equal variances assumed Equal variances not assumed Equal variances assumed Equal variances not assumed
,021 ,887 ,023 58 ,982 ,02067 ,89709 -1,77506 1,81639 ,023 57,928 ,982 ,02067 ,89709 -1,77511 1,81644 ,034 ,855 ,077 58 ,939 ,08400 1,09388 -2,10564 2,27364 ,077 57,958 ,939 ,08400 1,09388 -2,10568 2,27368 ,001 ,979 ,021 58 ,983 ,01333 ,63488 -1,25753 1,28419 ,021 57,983 ,983 ,01333 ,63488 -1,25753 1,28420
Lampiran 11. Tabel Uji Beda Nyata Warna Pada Ubi Jalar Kuning Setelah Dikukus Antar Batch Independent Samples Test
Difference Std. Error Difference Lower Upper 95% Confidence
Levene's Test for Equality of Variances t df Sig. (2-tailed) Mean
L_awal a_awal b_awal F Sig.
- ,168 57,949 ,867 -,08067 ,47957 -1,04064 ,87931 ,008 ,931 ,087
58 ,931 ,04567 ,52391 -1,00306 1,09439 ,087 57,999 ,931 ,04567 ,52391 -1,00306 1,09439 Equal variances assumed Equal variances not assumed Equal variances assumed Equal variances not assumed Equal variances assumed Equal variances not assumed
58 ,867 -,08067 ,47957 -1,04062 ,87929
,042 ,839 -,015 58 ,988 -,01700 1,11629 -2,25149 2,21749
Lampiran 10. Tabel Uji Beda Nyata Warna Pada Ubi Jalar Kuning Setelah Diberi Perlakuan Antar Batch Independent Samples Test
- ,015 57,987 ,988 -,01700 1,11629 -2,25151 2,21751 ,074 ,786 -,168
Interval of the Difference t-test for Equality of Means
Lampiran 13. Tabel Uji Beda Nyata Warna dan Browning Index Pada Ubi Jalar Kuning Instan Siap Konsumsi Antar Batch
Independent Samples Test
Difference Std. Error Difference Lower Upper 95% Confidence
Levene's Test for Equality of Variances t df Sig. (2-tailed) Mean
F Sig.
L_rehidrasi a_rehidrasi b_rehidrasi BI_rehidrasi
58 ,991 ,00474 ,44253 -,88108 ,89056 ,011 58,000 ,991 ,00474 ,44253 -,88108 ,89056 Equal variances assumed Equal variances not assumed Equal variances assumed Equal variances not assumed Equal variances assumed Equal variances not assumed Equal variances assumed Equal variances not assumed
58 ,938 -,01333 ,16973 -,35308 ,32641
58 ,920 -,02367 ,23507 -,49421 ,44688
,003 ,959 -,140 58 ,889 -,11800 ,84137 -1,80219 1,56619
Interval of the Difference t-test for Equality of Means
Difference Std. Error Difference Lower Upper 95% Confidence
Levene's Test for Equality of Variances t df Sig. (2-tailed) Mean
- ,100 57,986 ,920 -,04767 ,47521 -,99890 ,90356 ,000 ,994 -,020
assumed Equal variances not assumed Equal variances assumed Equal variances not assumed L_krg a_krg b_krg BI_krg F Sig.
58 ,944 -,08829 1,25718 -2,60480 2,42823
58 ,984 -,00500 ,25263 -,51070 ,50070
58 ,920 -,04767 ,47521 -,99889 ,90356
,000 ,985 -,012 58 ,991 -,01167 1,01017 -2,03375 2,01041
Lampiran 12. Tabel Uji Beda Nyata Warna dan Browning Index Pada Ubi Jalar Kuning Instan Antar Batch
Independent Samples Test
- ,012 58,000 ,991 -,01167 1,01017 -2,03375 2,01041 ,006 ,939 -,100
- ,020 58,000 ,984 -,00500 ,25263 -,51070 ,50070 ,000 ,992 -,070
- ,070 57,997 ,944 -,08829 1,25718 -2,60480 2,42823 Equal variances assumed Equal variances not assumed Equal variances assumed Equal variances not assumed Equal variances
- ,140 57,998 ,889 -,11800 ,84137 -1,80219 1,56619 ,020 ,887 -,101
- ,101 57,995 ,920 -,02367 ,23507 -,49421 ,44688 ,008 ,930 -,079
- ,079 57,985 ,938 -,01333 ,16973 -,35308 ,32642 ,000 ,990 ,011
95% Confidence Interval Parameter Estimate Std. Error Lower Bound Upper Bound a
76,116 2,163 71,403 80,829 b
- ,111 ,006 -,124 -,098
Correlations of Parameter Estimates a b a 1,000 -,719 b
- ,719 1,000
a ANOVA
Sum of Mean Source Squares df Squares Regression
27754,966 2 13877,483 Residual
130,078 12 10,840 Uncorrected Total
27885,044
14 Corrected Total 4897,959
13 Dependent variable: Y a. R squared = 1 - (Residual Sum of Squares) / (Corrected Sum of Squares) = ,973.
Lampiran 15. Hasil Regresi Non Linear Pada Steam Blanching 30 detik
Parameter Estimates95% Confidence Interval Parameter Estimate Std. Error Lower Bound Upper Bound a
76,843 2,356 71,658 82,029 b
- ,120 ,007 -,136 -,105
Correlations of Parameter Estimates a b a 1,000 -,715 b
- ,715 1,000
a ANOVA
Sum of Mean Source Squares df Squares Regression 26388,312 2 13194,156 Residual
133,541 11 12,140 Uncorrected Total
26521,853
13 Corrected Total 4715,349
12 Dependent variable: y a. R squared = 1 - (Residual Sum of Squares) / (Corrected Sum of Squares) = ,972.
Lampiran 16. Hasil Regresi Non Linear Pada Steam Blanching 2 menit
Parameter Estimates95% Confidence Interval Parameter Estimate Std. Error Lower Bound Upper Bound a
76,839 2,239 71,911 81,767 b -,123 ,007 -,138 -,108
a ANOVA
Sum of Mean Source Squares df Squares Regression
25993,800 2 12996,900 Residual
119,637 11 10,876 Uncorrected Total
26113,437
13 Corrected Total 4765,097
12 Dependent variable: y a. R squared = 1 - (Residual Sum of Squares) / (Corrected Sum of Squares) = ,975.
Correlations of Parameter Estimates a b a 1,000 -,712 b
- ,712 1,000
Lampiran 17. Hasil Regresi Non Linear Pada Steam Blanching 3 menit
Correlations of Parameter Estimates a b a 1,000 -,711 b
- ,711 1,000
a ANOVA
Sum of Mean Source Squares df Squares Regression
25816,467 2 12908,234 Residual
107,931 11 9,812 Uncorrected Total
25924,398
13 Corrected Total 4814,130
12 Dependent variable: y a. R squared = 1 - (Residual Sum of Squares) / (Corrected Sum of Squares) = ,978.
Lampiran 18. Hasil Regresi Non Linear Pada Hot Water Blanching 30 detik
Parameter Estimates95% Confidence Interval Parameter Estimate Std. Error Lower Bound Upper Bound a
78,130 3,255 70,768 85,492 b
- ,143 ,012 -,169 -,116
Correlations of Parameter Estimates a b a 1,000 -,705 b
- ,705 1,000
a ANOVA
Sum of Mean Source Squares df Squares Regression
23520,480 2 11760,240 Residual 184,652 9 20,517 Uncorrected Total 23705,133
11 Corrected Total 4332,032
10 Dependent variable: y
Lampiran 19. Hasil Regresi Non Linear Pada Hot Water Blanching 2 menit
Parameter Estimates95% Confidence Interval Parameter Estimate Std. Error Lower Bound Upper Bound a
78,476 3,098 71,469 85,483 b
- ,147 ,011 -,172 -,122
Correlations of Parameter Estimates a b a 1,000 -,702 b
- ,702 1,000
a ANOVA
Sum of Mean Source Squares df Squares Regression
23242,954 2 11621,477 Residual
165,454 9 18,384 Uncorrected Total
23408,408
11 Corrected Total 4439,155
10 Dependent variable: y a. R squared = 1 - (Residual Sum of Squares) / (Corrected Sum of Squares) = ,963.
Lampiran 20. Hasil Regresi Non Linear Pada Hot Water Blanching 3 menit
Parameter Estimates95% Confidence Interval Parameter Estimate Std. Error Lower Bound Upper Bound a
78,888 2,774 72,614 85,163 b
- ,151 ,010 -,174 -,128
Correlations of Parameter Estimates a b a 1,000 -,698 b -,698 1,000 a
ANOVA
Lampiran 21. Hasil Regresi Non Linear Pada Sodium Metabisulfit 0,1%
Parameter Estimates95% Confidence Interval Parameter Estimate Std. Error Lower Bound Upper Bound a
75,617 2,970 68,769 82,464 b
- ,162 ,012 -,190 -,133
Correlations of Parameter Estimates a b a 1,000 -,696 b
- ,696 1,000
a ANOVA
Sum of Mean Source Squares df Squares Regression 19886,711 2 9943,356 Residual 126,657 8 15,832 Uncorrected Total
20013,368
10 Corrected Total 3767,906
9 Dependent variable: y a. R squared = 1 - (Residual Sum of Squares) / (Corrected Sum of Squares) = ,966.
Lampiran 22. Hasil Regresi Non Linear Pada Sodium Metabisulfit 0,2%
Parameter Estimates95% Confidence Interval Parameter Estimate Std. Error Lower Bound Upper Bound a
75,379 2,859 68,786 81,973 b
- ,165 ,012 -,192 -,137
Correlations of Parameter Estimates a b a 1,000 -,693 b
- ,693 1,000 a
ANOVA Lampiran 23. Hasil Regresi Non Linear Pada Sodium Metabisulfit 0,3% Parameter Estimates
95% Confidence Interval Parameter Estimate Std. Error Lower Bound Upper Bound a
75,444 2,707 69,201 81,687 b
- ,168 ,012 -,195 -,141
Correlations of Parameter Estimates a b a 1,000 -,690 b
- ,690 1,000
a ANOVA
Sum of Mean Source Squares df Squares Regression
19256,424 2 9628,212 Residual
103,776 8 12,972 Uncorrected Total
19360,200
10 Corrected Total 3817,490
9 Dependent variable: y a. R squared = 1 - (Residual Sum of Squares) / (Corrected Sum of Squares) = ,973.
Lampiran 24. Tabel Post Hock Kandungan Amilosa Pada Ubi Jalar Kuning Kukus
- Perlakuan Steam Blanching
amilosa_kukus a
Duncan Subset for alpha = .05 ket_waktu N
1
2
3 3 menit 6 2,3982 2 menit 6 2,6504 30 detik 6 2,8687
Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
- Perlakuan Hot WaterBlanching
amilosa_kukus a
Duncan Subset for alpha = .05 perlak N
1
2
3 3,00 6 1,5634 2,00 6 2,0339 1,00 6 2,2212 Sig.
1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
- Perlakuan Perendaman Sodium Metabisulfit
amilosa_kukus a
Duncan Subset for alpha = .05 perlak N
1
2
3 1,00 6 3047,1976 2,00 6 3185,8407 3,00 6 3467,5516 Sig.
1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
Lampiran 25. Tabel Post Hock Kandungan Amilosa Pada Ubi Jalar Kuning Instan
- Perlakuan Steam Blanching
amilosa_krg a
Duncan Subset for alpha = .05 ket_waktu N
1
2
3 3 menit 6 1,8673 2 menit 6 2,1032 30 detik 6 2,4189 Sig.
1,000 1,000 1,000
- Perlakuan Hot WaterBlanching
amilosa_krg a
Duncan Subset for alpha = .05 perlak N
1
2
3 3,00 6 1,1460 2,00 6 1,4912 1,00 6 1,7861 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
- Perlakuan Perendaman Sodium Metabisulfit
amilosa_krg a
Duncan Subset for alpha = .05 perlak N
1
2
3 3,00 6 2,5664 2,00 6 2,7271 1,00 6 2,8805 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
Lampiran 26. Tabel Post Hock Kandungan Vitamin A Pada Ubi Jalar Kuning Setelah
Diberi Perlakuan- Perlakuan Steam Blanching
vitA_awal a
Duncan Subset for alpha = .05 ket_waktu N
1
2
3 3 menit 6 25736,51 2 menit 6 27410,54 30 detik 6 28497,26 Sig.
1,000 1,000 1,000
- Perlakuan Hot WaterBlanching
vitA_awal a
Duncan Subset for alpha = .05 perlak N
1
2
3 3,00 6 22592,42 2,00 6 23638,69 1,00 6 24632,21 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
- Perlakuan Perendaman Sodium Metabisulfit
vitA_awal a
Duncan Subset for alpha = .05 perlak N
1
2
3 1,00 6 29351,86 2,00 6 30357,69 3,00 6 31611,45 Sig.
1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
Lampiran 27. Tabel Post Hock Kandungan Vitamin A Pada Ubi Jalar Kuning Setelah
Pengukusan- Perlakuan Steam Blanching
vitA_kukus a
Duncan Subset for alpha = .05 ket_waktu N
1
2
3 3 menit 6 23524,39 2 menit 6 24602,32 30 detik 6 25657,38
- Perlakuan Hot WaterBlanching
vitA_kukus a
Duncan Subset for alpha = .05 perlak N
1
2
3 3,00 6 20485,82 2,00 6 21523,30 1,00 6 22602,98 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
- Perlakuan Perendaman Sodium Metabisulfit
vitA_kukus a
Duncan Subset for alpha = .05 perlak N
1
2
3 1,00 6 27721,79 2,00 6 28486,71 3,00 6 29888,18 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
Lampiran 28. Tabel Post Hock Kandungan Vitamin A Pada Ubi Jalar Kuning Instan
- Perlakuan Steam Blanching
vitA_krg a
Duncan Subset for alpha = .05 ket_waktu N
1
2
3 3 menit 6 22546,70 2 menit 6 23466,37 30 detik 6 24547,81
Sig. 1,000 1,000 1,000
- Perlakuan Hot WaterBlanching
vitA_krg a
Duncan Subset for alpha = .05 perlak N
1
2
3 3,00 6 19413,16 2,00 6 20723,20 1,00 6 21681,28 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
- Perlakuan Perendaman Sodium Metabisulfit
vitA_krg a
Duncan Subset for alpha = .05 perlak N
1
2
3 1,00 6 25746,42 2,00 6 26974,45 3,00 6 28507,81 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
Lampiran 29. Tabel Post Hock Kapasitas Rehidrasi Pada Ubi Jalar Kuning Instan
- Perlakuan Steam Blanching
RC a
Duncan Subset for alpha = .05 ket_waktu N
1
2
3 3 menit 6 ,3347 2 menit 6 ,3587 30 detik 6 ,3829
Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
- Perlakuan Hot WaterBlanching
RC a
Duncan Subset for alpha = .05 perlak N
1
2
3 2,00 6 ,4201654 1,00 6 ,4509248 3,00 6 ,4861510 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
- Perlakuan Perendaman Sodium Metabisulfit
RC a
Duncan Subset for alpha = .05 perlak N
1
2
3 3,00 6 ,2641589 2,00 6 ,2844272 1,00 6 ,3063444 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
Lampiran 30. Tabel Post Hock Laju Rehidrasi Pada Ubi Jalar Kuning Instan
- Perlakuan Steam Blanching
RR a
Duncan Subset for alpha = .05 ket_waktu N
1
2
3 3 menit 6 ,0335 2 menit 6 ,0359 30 detik 6 ,0383
Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
- Perlakuan Hot WaterBlanching
RR a
Duncan Subset for alpha = .05 perlak N
1
2
3 3,00 6 ,02641589 2,00 6 ,02844272 1,00 6 ,03063444 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
- Perlakuan Perendaman Sodium Metabisulfit
RR a
Duncan Subset for alpha = .05 perlak N
1
2
3 3,00 6 ,02641589 2,00 6 ,02844272 1,00 6 ,03063444 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
Lampiran 31. Tabel Post Hock Nilai Lightness (L) Pada Ubi Jalar Kuning Setelah diberi
Perlakuan- Perlakuan Steam Blanching
L_awal a
Duncan Subset for alpha = .05 ket_waktu N
1
2
3 3 menit 6 67,2817 2 menit 6 68,5633 30 detik 6 69,4917 Sig.
1,000 1,000 1,000
- Perlakuan Hot WaterBlanching
L_awal a
Duncan Subset for alpha = .05 perlak N
1
2
3 3,00 6 62,5133 2,00 6 64,4667 1,00 6 65,3533 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
- Perlakuan Perendaman Sodium Metabisulfit
L_awal a
Duncan Subset for alpha = .05 perlak N
1
2
3 1,00 6 72,5517 2,00 6 74,3533 3,00 6 76,3017 Sig.
1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
Lampiran 32. Tabel Post Hock Nilai Reddness (a) Pada Ubi Jalar Kuning Setelah diberi
Perlakuan- Perlakuan Steam Blanching
a_awal a
Duncan Subset for alpha = .05 ket_waktu N
1
2
3 30 detik 6 10,3433 2 menit 6 10,7733 3 menit 6 11,3150
Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
- Perlakuan Hot WaterBlanching
a_awal a
Duncan Subset for alpha = .05 perlak N
1
2
3 1,00 6 12,3000 2,00 6 12,6617 3,00 6 13,1917 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
- Perlakuan Perendaman Sodium Metabisulfit
a_awal a
Duncan Subset for alpha = .05 perlak N
1
2
3 3,00 6 7,7383 2,00 6 8,2867 1,00 6 8,7050 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
Lampiran 33. Tabel Post Hock Nilai Yellowness (b) Pada Ubi Jalar Kuning Setelah diberi
Perlakuan- Perlakuan Steam Blanching
b_awal a
Duncan Subset for alpha = .05 ket_waktu N
1
2
3 3 menit 6 12,5833 2 menit 6 13,1167 30 detik 6 13,6267
Sig. 1,000 1,000 1,000
- Perlakuan Hot WaterBlanching
b_awal a
Duncan Subset for alpha = .05 perlak N
1
2
3 3,00 6 10,4400 2,00 6 10,8233 1,00 6 11,4550 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
- Perlakuan Perendaman Sodium Metabisulfit
b_awal a
Duncan Subset for alpha = .05 perlak N
1
2
3 1,00 6 14,6950 2,00 6 15,2333 3,00 6 15,6117 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
Lampiran 34. Tabel Post Hock Nilai Lightness (L) Pada Ubi Jalar Kuning Setelah Dikukus
- Perlakuan Steam Blanching
L_kukus a
Duncan Subset for alpha = .05 ket_waktu N
1
2
3 3 menit 6 45,5633 2 menit 6 46,2417 30 detik 6 47,3383 Sig.
1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
- Perlakuan Hot WaterBlanching
L_kukus a
Duncan Subset for alpha = .05 perlak N
1
2
3 3,00 6 42,3633 2,00 6 43,8017 1,00 6 44,4617 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
- Perlakuan Perendaman Sodium Metabisulfit
L_kukus a
Duncan Subset for alpha = .05 perlak N
1
2
3 1,00 6 49,4400 2,00 6 50,7283 3,00 6 51,4083 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
Lampiran 35. Tabel Post Hock Nilai Reddness (a) Pada Ubi Jalar Kuning Setelah Dikukus
- Perlakuan Steam Blanching
a_kukus a
Duncan Subset for alpha = .05 ket_waktu N
1
2
3 30 detik 6 17,6917 2 menit 6 18,4017 3 menit 6 19,2750 Sig.
1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
- Perlakuan Hot WaterBlanching
a_kukus a
Duncan Subset for alpha = .05 perlak N
1
2
3 1,00 6 21,3450 2,00 6 22,1817 3,00 6 23,6983 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
- Perlakuan Perendaman Sodium Metabisulfit
a_kukus a
Duncan Subset for alpha = .05 perlak N
1
2
3 3,00 6 12,4533 2,00 6 13,6100 1,00 6 14,3900 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
Lampiran 36. Tabel Post Hock Nilai Yellowness (b) Pada Ubi Jalar Kuning Setelah Dikukus
- Perlakuan Steam Blanching
b_kukus a
Duncan Subset for alpha = .05 ket_waktu N
1
2 2 menit 6 15,3600 30 detik 6 15,4950 15,4950 3 menit 6 15,5983 Sig.
,118 ,223 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
- Perlakuan Hot WaterBlanching
b_kukus a
Duncan Subset for alpha = .05 perlak N
1
2
3 3,00 6 12,8167 2,00 6 14,0583 1,00 6 14,2167 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
- Perlakuan Perendaman Sodium Metabisulfit
b_kukus a
Duncan Subset for alpha = .05 perlak N
1
2 1,00 6 18,3967 2,00 6 18,5550 3,00 6 19,1483 Sig. ,164 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
Lampiran 37. Tabel Post Hock Nilai Total Perubahan Warna ( ∆E) Pada Ubi Jalar Kuning Setelah Dikukus
- Perlakuan Steam Blanching
E_kukus a
Duncan Subset for alpha = .05 ket_waktu N
1
2
3 3 menit 6 8,9515 2 menit 6 9,8490 30 detik 6 11,0556
- Perlakuan Hot Water Blanching
E_kukus a
Duncan Subset for alpha = .05 perlak N
1
2
3 3,00 6 2,8901 2,00 6 5,2878 1,00 6 6,2935 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
- Perlakuan Perendaman Sodium Metabisulfit
E_kukus a
Duncan Subset for alpha = .05 perlak N
1
2
3 1,00 6 15,7730 2,00 6 17,1345 3,00 6 18,5824 Sig.
1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
Lampiran 38. Tabel Post Hock Nilai Lightness (L) Pada Ubi Jalar Kuning Instan
- Perlakuan Steam Blanching
L_krg a
Duncan Subset for alpha = .05 ket_waktu N
1
2
3 3 menit 6 34,6283 2 menit 6 35,4883 30 detik 6 36,2483 Sig.
1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
- Perlakuan Hot Water Blanching
L_krg a
Duncan Subset for alpha = .05 perlak N
1
2
3 3,00 6 37,5783 2,00 6 39,4667 1,00 6 40,2317 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
- Perlakuan Perendaman Sodium Metabisulfit
L_krg a
Duncan Subset for alpha = .05 perlak N
1
2
3 1,00 6 41,3550 2,00 6 42,4217 3,00 6 43,5750 Sig.
1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
Lampiran 39. Tabel Post Hock Nilai Reddness (a) Pada Ubi Jalar Kuning Instan
- Perlakuan Steam Blanching
a_krg a
Duncan Subset for alpha = .05 ket_waktu N
1
2 30 detik 6 13,2633 3 menit 6 13,4517 2 menit 6 13,7217 Sig.
,074 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
- Perlakuan Hot Water Blanching
a_krg a
Duncan Subset for alpha
= .05 perlak N
1 1,00 6 11,4967 3,00 6 11,5067 2,00 6 11,6533 Sig.
,305 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
- Perlakuan Perendaman Sodium Metabisulfit
a_krg a
Duncan Subset for alpha = .05 perlak N
1
2 3,00 6 9,3850 2,00 6 9,4600 1,00 6 10,5700 Sig. ,476 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
Lampiran 40. Tabel Post Hock Nilai Yellowness (b) Pada Ubi Jalar Kuning Instan
- Perlakuan Steam Blanching
b_krg a
Duncan Subset for alpha = .05 ket_waktu N
1
2 30 detik 6 6,4183 3 menit 6 6,6150 2 menit 6 6,6500
Sig. 1,000 ,433
- Perlakuan Hot Water Blanching
b_krg a
Duncan Subset for alpha = .05 perlak N
1
2 3,00 6 7,3350 1,00 6 7,6650 2,00 6 7,6900 Sig. 1,000 ,664 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
- Perlakuan Perendaman Sodium Metabisulfit
b_krg a
Duncan Subset for alpha
= .05 perlak N
1 2,00 6 8,2833 1,00 6 8,2867 3,00 6 8,3317 Sig. ,534 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
Lampiran 41. Tabel Post Hock Nilai Browning Index (BI) Pada Ubi Jalar Kuning Instan
- Perlakuan Steam Blanching
BI_krg a
Duncan Subset for alpha = .05 ket_waktu N
1
2
3 30 detik 6 44,8730 2 menit 6 47,5360 3 menit 6 48,1159
- Perlakuan Hot Water Blanching
BI_krg a
Duncan Subset for alpha = .05 perlak N
1
2
3 3,00 6 8,3113 2,00 6 10,0152 1,00 6 10,7589 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
- Perlakuan Perendaman Sodium Metabisulfit
BI_krg a
Duncan Subset for alpha = .05 perlak N
1
2
3 1,00 6 12,2501 2,00 6 13,6359 3,00 6 14,7004 Sig.
1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
Lampiran 42. Tabel Post Hock Nilai Total Perubahan Warna ( ∆E) Pada Ubi Jalar Kuning Instan
- Perlakuan Steam Blanching
E_krg a
Duncan Subset for alpha = .05 ket_waktu N
1
2
3 3 menit 6 4,7506 2 menit 6 5,4693
- Perlakuan Hot Water Blanching
E_krg a
Duncan Subset for alpha = .05 perlak N
1
2
3 1,00 6 41,1913 2,00 6 42,3848 3,00 6 43,1677 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
- Perlakuan Perendaman Sodium Metabisulfit
E_krg a
Duncan Subset for alpha = .05 perlak N
1
2
3 3,00 6 36,4198 2,00 6 37,4605 1,00 6 40,3670 Sig.
1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
Lampiran 43. Tabel Post Hock Nilai Lightness (L) Pada Ubi Jalar Kuning Instan Setelah
Rehidrasi- Perlakuan Steam Blanching
L_rehidrasi a
Duncan Subset for alpha = .05 ket_waktu N
1
2
3 30 detik 6 42,3167 2 menit 6 43,7550
- Perlakuan Hot Water Blanching
L_rehidrasi a
Duncan Subset for alpha = .05 perlak N
1
2
3 1,00 6 45,2367 2,00 6 46,6233 3,00 6 47,2967 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
- Perlakuan Perendaman Sodium Metabisulfit
L_rehidrasi a
Duncan Subset for alpha = .05 perlak N
1
2
3 1,00 6 48,7017 2,00 6 49,6100 3,00 6 51,3933 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
Lampiran 44. Tabel Post Hock Nilai Reddness (a) Pada Ubi Jalar Kuning Instan Setelah
Rehidrasi- Perlakuan Steam Blanching
a_rehidrasi a
Duncan Subset for alpha
= .05 ket_waktu N 1 30 detik
6 9,2800 3 menit 6 9,3033
- Perlakuan Hot Water Blanching
a_rehidrasi a
Duncan Subset for alpha
= .05 perlak N
1 2,00 6 8,7233 3,00 6 8,7533 1,00 6 8,8217 Sig.
,304 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
- Perlakuan Perendaman Sodium Metabisulfit
a_rehidrasi a
Duncan Subset for alpha
= .05 perlak N
1 3,00 6 8,5150 2,00 6 8,6033 1,00 6 8,6983 Sig.
,086 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
Lampiran 45. Tabel Post Hock Nilai Yellowness (b) Pada Ubi Jalar Kuning Instan Setelah
Rehidrasi- Perlakuan Steam Blanching
b_rehidrasi a
Duncan Subset for alpha = .05 ket_waktu N
1
2
3
- Perlakuan Hot Water Blanching
b_rehidrasi a
Duncan Subset for alpha = .05 perlak N
1
2
3 1,00 6 5,3800 2,00 6 5,5217 3,00 6 5,7367 Sig.
1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
- Perlakuan Perendaman Sodium Metabisulfit
b_rehidrasi a
Duncan Subset for alpha
= .05 perlak N
1 1,00 6 5,5900 2,00 6 5,5950 3,00 6 5,6550 Sig.
,099 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
Lampiran 46. Tabel Post Hock Nilai Browning Index (BI) Pada Ubi Jalar Kuning Instan
Setelah Rehidrasi- Perlakuan Steam Blanching
b_rehidrasi a
Duncan Subset for alpha = .05 ket_waktu N
1
2
3
- Perlakuan Hot Water Blanching
BI_rehidrasi a
Duncan Subset for alpha = .05 perlak N
1
2
3 1,00 6 4,9280 2,00 6 6,2851 3,00 6 6,9506 Sig. 1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
- Perlakuan Perendaman Sodium Metabisulfit
BI_rehidrasi a
Duncan Subset for alpha = .05 perlak N
1
2 3,00 6 5,5212 2,00 6 5,5395 5,5395 1,00 6 5,5684 Sig.
,375 ,170 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
Lampiran 47. Tabel Post Hock Nilai Total Perubahan Warna ( ∆E) Pada Ubi Jalar Kuning Instan Setelah Rehidrasi
- Perlakuan Steam Blanching
E_rehidrasi a
Duncan Subset for alpha = .05 ket_waktu N
1
2
3 30 detik 6 9,7673 2 menit 6 11,1855
- Perlakuan Hot Water Blanching
E_rehidrasi a
Duncan Subset for alpha = .05 perlak N
1
2
3 1,00 6 12,7105 2,00 6 14,0951 3,00 6 14,7587 Sig.
1,000 1,000 1,000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
- Perlakuan Perendaman Sodium Metabisulfit a
E_rehidrasi Duncan Subset for alpha = .05 perlak N
1
2
3 1,00 6 16,1615 2,00 6 17,0747 3,00 6 18,8571 Sig. 1,000 1,000 1,000
Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6,000.
Lampiran 48. Uji Beda Nyata Antara Steam Blanching dan Hot Water Blanching Equality of Variances t-test for Equality of Means Levene's Test for
Independent Samples Test