55
LAMPIRAN
Lampiran 1. Penurunan Kadar Air Selama Proses Pengeringan
Waktu KA Kontrol 1 KA Kontrol 2 KA Kontrol 3 KA Blanching 1
KA Blanching 2
KA Blanching 3
9:00 0.9265 ± 0 0.9265 ± 0 0.9265 ± 0 0.9171 ± 0 0.9171 ± 0 0.9171 ± 0 9:30 0.8833 ±
0.0139 0.8756 ± 0.0038 0.8879 ± 0.0049 0.8828 ± 0.0047 0.8749 ± 0.0053 0.8810 ± 0.0059 10:00 0.8368 ±
0.0236 0.8132 ± 0.0100 0.8442 ± 0.0059 0.8551 ± 0.0182 0.8419 ± 0.0093 0.8385 ± 0.0067 10:30 0.7601 ±
0.0611 0.6970 ± 0.0181 0.7565 ± 0.0191 0.8080 ± 0.0281 0.7753 ± 0.0102 0.7867 ± 0.0055 11:00 0.5727 ±
0.0765 0.4616 ± 0.1218 0.6050 ± 0.0975 0.7618 ± 0.0262 0.6577 ± 0.0574 0.6436 ± 0.0814 11:30 0.3937 ±
0.0269 0.1979 ± 0.0811 0.3746 ± 0.1390 0.6592 ± 0.0305 0.4897 ± 0.1469 0.5307 ± 0.0963 12:00 0.3075 ±
0.0498 0.1749 ± 0.0795 0.2259 ± 0.1257 0.5188 ± 0.0351 0.3390 ± 0.1378 0.3837 ± 0.0453 12:30 0.2188 ±
0.0927 0.1582 ± 0.0690 0.2133 ± 0.1336 0.3903 ± 0.0567 0.2181 ± 0.0867 0.2224 ± 0.0755 13:00 0.1488 ±
0.0898 0.1406 ± 0.0575 0.2003 ± 0.1410 0.2483 ± 0.1043 0.1578 ± 0.0441 0.1402 ± 0.0468 13:30 0.0848 ±
0.0173 0.0959 ± 0.0169 0.1501 ± 0.0814 0.2131 ± 0.0753 0.1344 ± 0.0460 0.1169 ± 0.0401 14:00 0.0782 ±
0.0233 0.0847 ± 0.0257 0.0919 ± 0.0193 0.1239 ± 0.0284 0.0991 ± 0.0268 0.0962 ± 0.0218 14:30 0.0658 ±
0.0237 0.0734 ± 0.0176 0.0699 ± 0.0112 0.0595 ± 0.0205 0.0770 ± 0.0077 0.0836 ± 0.0132
Waktu KA
Metabisulfit 1 KA Metabisulfit 2 KA Metabisulfit 3 KA Askorbat 1 KA Askorbat 2 KA Askorbat 3
9:00 0.9091 ± 0 0.9091 ± 0 0.9091 ± 0 0.9138 ± 0 0.9138 ± 0 0.9138 ± 0 9:30 0.8741 ±
0.0040 0.8566 ± 0.0123 0.8654 ± 0.0114 0.8608 ± 0.0108 0.8752 ± 0.0079 0.8648 ± 0.0177 10:00 0.8281 ±
0.0156 0.8088 ± 0.0151 0.8120 ± 0.0215 0.8019 ± 0.0345 0.8386 ± 0.0140 0.8293 ± 0.0045 10:30 0.7779 ±
0.0169 0.7222 ± 0.0317 0.7166 ± 0.0140 0.7428 ± 0.0122 0.7796 ± 0.0242 0.7806 ± 0.0092 11:00 0.6677 ±
0.0304 0.4889 ± 0.1046 0.5874 ± 0.0936 0.5713 ± 0.0459 0.7182 ± 0.0207 0.6550 ± 0.1167 11:30 0.5670 ±
0.0658 0.4093 ± 0.0322 0.4709 ± 0.0257 0.4160 ± 0.0724 0.5753 ± 0.0443 0.5237 ± 0.0556 12:00 0.4265 ±
0.0397 0.2292 ± 0.1058 0.3598 ± 0.0912 0.3593 ± 0.1186 0.4087 ± 0.1679 0.3669 ± 0.1032 12:30 0.2880 ±
0.0820 0.1811 ± 0.1102 0.1908 ± 0.1346 0.2887 ± 0.1681 0.3270 ± 0.1512 0.2473 ± 0.2010 13:00 0.1907 ±
0.1268 0.1637 ± 0.1028 0.1699 ± 0.1530 0.1686 ± 0.1084 0.2328 ± 0.1951 0.2206 ± 0.1557 13:30 0.1310 ±
0.0462 0.1049 ± 0.0215 0.1055 ± 0.0515 0.1572 ± 0.1142 0.2133 ± 0.1490 0.2054 ± 0.1247 14:00 0.0849 ±
0.0139 0.0909 ± 0.0090 0.0814 ± 0.0183 0.0838 ± 0.0098 0.1969 ± 0.0845 0.1739 ± 0.0850 14:30 0.0696 ±
56
Lampiran 2. Perubahan Karaketeristik Warna Selama Proses Pengeringan
waktu
L kontrol
L blanching
L metabisulfit
L askorbat
9:00
80,27
73,82
78,87333333
75,84
9:30
79,54666667
73,52
78,20666667
75,14666667
10:00
78,83
73,27333333
77,81333333
74,57333333
10:30
78,20666667
71,78333333
77,65666667
72,40666667
11:00
76,31333333
71,05
75,82
66,68666667
11:30
74,78
62,93
73,03666667
54,39666667
12:00
74,18333333
51,80666667
66,27
49,70333333
12:30
73,19666667
51,52333333
63,65
39,07666667
13:00
72,64666667
45,13
63,21333333
35,28
13:30
72,29333333
42,15666667
61,17
31,98666667
14:00
70,59666667
41,06
58,69333333
28,25666667
14:30
66,88
39,66
53,07333333
26,90333333
waktu
a* kontrol
a* blanching
a* metabisulfit
a* askorbat
9:00
-1,566666667
-0,723333333
-2,183333333
-2,15
9:30
-1,486666667
-0,706666667
-2,053333333
-2,00666667
10:00
-1,27
-0,04
-2,02
-0,70666667
10:30
-0,703333333
0,326666667
-1,953333333
1,876666667
11:00
0,313333333
1,98
-1,596666667
2,163333333
11:30
1,253333333
2,76
-0,316666667
11,04333333
12:00
2,26
3,96
0,286666667
11,42
12:30
2,303333333
5,16
1,463333333
13,3
13:00
2,683333333
6,21
2,163333333
14,52333333
13:30
2,7
6,456666667
3,303333333
16,47
14:00
2,92
6,496666667
3,783333333
17,37333333
14:30
2,93
6,906666667
4,416666667
20,85
waktu
b* kontrol
b* blanching
b* metabisulfit
b* askorbat
9:00
12,64333333
12,91333333
5,976666667
8,026666667
9:30
15,13
13,22
6,31
9,74
10:00
16,49666667
13,93666667
8,18
10,47666667
10:30
19,80333333
14,79666667
9,64
11,54333333
11:00
24,39666667
17,52333333
9,936666667
12,05666667
11:30
25,27
22,00333333
15,33
13,60333333
12:00
25,43
22,29666667
19,31
13,72333333
12:30
26,29333333
24,14666667
24,05333333
14,78
13:00
26,72
24,35333333
24,79
18,08333333
13:30
26,79666667
25,61333333
25,39666667
18,83333333
14:00
27,66
26,91333333
26,43666667
19,12
57
Lampiran 3. Perubahan Nilai Tekstur Selama Proses Pengeringan
waktu
kontrol
blanching
metabisulfit
askorbat
9:00
603,4793
829,6641
753,583
697,5522
9:30
738,8987
929,9968
781,76
715,3029
10:00
847,9135
1028,48
796,5534
726,9589
10:30
947,4274
1042,885
857,1365
741,0516
11:00
1057,891
1154,836
954,6759
849,2828
11:30
1451,7
1430,695
1141,588
900,3505
12:00
1751,838
1559,654
1161,489
1149,061
12:30
2065,146
1860,929
1605,131
1368,364
13:00
2227,42
2187,817
1770,018
1418,175
13:30
2547,649
2258,527
2001,344
1892,068
14:00
2643,245
2460,757
2365,912
2231,084
14:30
2923,494
2850,363
2640,862
2540,009
Lampiran 4. Perubahan Nilai Aw Selama Proses Pengeringan
waktu
rerata kontrol
std dev kontrol
rerata blanching
std dev blanching
9:00
0,987666667
0,001154701
0,990333333
0,005507571
9:30
0,979
0,018384776
0,9865
0,006363961
10:00
0,9525
0,012020815
0,985
0,004242641
10:30
0,9445
0,031819805
0,9615
0,004949747
11:00
0,9385
0,010606602
0,9165
0,013435029
11:30
0,928
0,008485281
0,84
0,173948268
12:00
0,8855
0,004949747
0,749
0,004242641
12:30
0,7055
0,079903066
0,592
0,012727922
13:00
0,5705
0,078488853
0,452
0,022627417
13:30
0,41
0,069296465
0,4275
0,007778175
14:00
0,199
0,005656854
0,266
0,066468037
14:30
0,157
0,001414214
0,146
0,012727922
waktu
rerata
metabisulfit
std dev
metabisulfit
rerata askorbat
std dev askorbat
9:00
0,986333333
0,00305505
0,987333333
0,005507571
9:30
0,984
0,002828427
0,9805
0,00212132
10:00
0,979
0,002828427
0,9765
0,003535534
10:30
0,9615
0,006363961
0,9505
0,006363961
11:00
0,9385
0,007778175
0,882
0,005656854
11:30
0,919
0,004242641
0,6945
0,092630988
12:00
0,7915
0,003535534
0,571
0,007071068
12:30
0,526
0,022627417
0,368
0,197989899
13:00
0,3595
0,068589358
0,336
0,011313708
13:30
0,3439
0,03549676
0,229
0,004242641
14:00
0,273
0,038183766
0,214
0,011313708
58
Lampiran 5. Perubahan Nilai Rehidrasi Selama Proses Pengeringan
waktu
rerata kontrol
std dev kontrol
rerata blanching
std dev blanching
9:00
1,086
0,008519193
1,106426799
0,009985185
9:30
1,199
0,027090127
1,358552951
0,045106243
10:00
1,394
0,122062477
1,370577874
0,066290144
10:30
2,056
0,070186826
1,599733805
0,048614779
11:00
2,192
0,093883341
1,768319719
0,034893348
11:30
3,361
0,505015705
1,860308651
0,070673113
12:00
4,254
0,443480483
2,366384337
0,127996501
12:30
4,303
0,194213769
2,426062809
0,095739021
13:00
5,429
0,293045777
2,456465338
0,246913824
13:30
5,673
0,286548963
2,517276559
0,057434149
14:00
5,945
0,56748326
2,564579998
0,020781034
14:30
6,216
0,454909551
2,726327458
0,080204773
waktu
rerata
metabisulfit
std dev
metabisulfit
rerata as.askorbat
std dev as.
Askorbat
9:00
1,051999325
0,035504876
1,097083429
0,052280965
9:30
1,063337457
0,083925096
1,331498499
0,083950402
10:00
1,184376321
0,099332134
1,3572287
0,131560502
10:30
1,293283688
0,077539124
1,428789676
0,099626382
11:00
1,298536411
0,020500996
1,519620662
0,051949542
11:30
1,376467878
0,13493496
2,170371546
0,19294071
12:00
1,846038249
0,116785598
2,423146032
0,234096822
12:30
2,212404026
0,209699131
2,597419289
0,044921266
13:00
2,280868167
0,091427159
3,21782631
0,290943813
13:30
2,35812137
0,231965296
3,222247617
0,275010121
14:00
2,71579114
0,082085519
3,243035743
0,066351186
59
Lampiran 6. Analisa Data
Pengaruh Area terhadap Kadar Air _
Perlakuan _ Suhu
KA1_2
Duncana
Area N
Subset for alpha = 0.05
1
2.00 3 .8757
1.00 3 .8834
3.00 3 .8879
Sig. .152
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA2_2
Duncana
Area N
Subset for alpha = 0.05
1
2.00 3 .8749
3.00 3 .8811
1.00 3 .8828
Sig. .131
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA3_2
Duncana
Area N
Subset for alpha = 0.05
1
2.00 3 .8567
3.00 3 .8654
1.00 3 .8742
Sig. .084
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA4_2
Duncana
Area N
Subset for alpha = 0.05
1
1.00 3 .8608
3.00 3 .8649
2.00 3 .8753
Sig. .233
Means for groups in homogeneous subsets are displayed.
KA1_3
Duncana
Area N
Subset for alpha = 0.05
1
2.00 3 .8133
1.00 3 .8369
3.00 3 .8443
Sig. .053
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA2_3
Duncana
Area N
Subset for alpha = 0.05
1
3.00 3 .8386
2.00 3 .8419
1.00 3 .8552
Sig. .165
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA3_3
Duncana
Area N
Subset for alpha = 0.05
1
2.00 3 .8089
3.00 3 .8121
1.00 3 .8282
Sig. .243
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA4_3
Duncana
Area N
Subset for alpha = 0.05
1
1.00 3 .8019
3.00 3 .8294
2.00 3 .8387
Sig. .092
Means for groups in homogeneous subsets are displayed.
KA1_4
Duncana
Area N
Subset for alpha = 0.05
1
2.00 3 .6970
3.00 3 .7566
1.00 3 .7601
Sig. .100
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA2_4
Duncana
Area N
Subset for alpha = 0.05
1
2.00 3 .7753
3.00 3 .7867
1.00 3 .8080
Sig. .071
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA3_4
Duncana
Area N
Subset for alpha = 0.05
1 2
3.00 3 .7166
2.00 3 .7223
1.00 3 .7780
Sig. .767 1.000
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA4_4
Duncana
Area N
Subset for alpha = 0.05
1 2
1.00 3 .7429
2.00 3 .7796
3.00 3 .7807
Sig. 1.000 .942
Means for groups in homogeneous subsets are displayed.
KA1_5
Duncana
Area N
Subset for alpha = 0.05
1
2.00 3 .4616
1.00 3 .5727
3.00 3 .6050
Sig. .142
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA2_5
Duncana
Area N
Subset for alpha = 0.05
1
3.00 3 .6436
2.00 3 .6578
1.00 3 .7618
Sig. .057
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA3_5
Duncana
Area N
Subset for alpha = 0.05
1 2
2.00 3 .4890
3.00 3 .5875 .5875
1.00 3 .6678
Sig. .196 .280
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA4_5
Duncana
Area N
Subset for alpha = 0.05
1
1.00 3 .5714
3.00 3 .6551
2.00 3 .7182
Sig. .056
Means for groups in homogeneous subsets are displayed.
KA1_6
Duncana
Area N
Subset for alpha = 0.05
1 2
2.00 3 .1979
3.00 3 .3747 .3747
1.00 3 .3938
Sig. .061 .813
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA2_6
Duncana
Area N
Subset for alpha = 0.05
1
2.00 3 .4898
3.00 3 .5308
1.00 3 .6592
Sig. .100
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA3_6
Duncana
Area N
Subset for alpha = 0.05
1 2
2.00 3 .4093
3.00 3 .4710
1.00 3 .5671
Sig. .143 1.000
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA4_6
Duncana
Area N
Subset for alpha = 0.05
1 2
1.00 3 .4160
3.00 3 .5237 .5237
2.00 3 .5753
Sig. .065 .322
Means for groups in homogeneous subsets are displayed.
KA1_7
Duncana
Area N
Subset for alpha = 0.05
1
2.00 3 .1749
3.00 3 .2259
1.00 3 .3075
Sig. .134
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA2_7
Duncana
Area N
Subset for alpha = 0.05
1 2
2.00 3 .3390
3.00 3 .3838 .3838
1.00 3 .5188
Sig. .548 .104
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA3_7
Duncana
Area N
Subset for alpha = 0.05
1 2
2.00 3 .2293
3.00 3 .3598 .3598
1.00 3 .4265
Sig. .105 .368
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA4_7
Duncana
Area N
Subset for alpha = 0.05
1
1.00 3 .3594
3.00 3 .3669
2.00 3 .4088
Sig. .674
Means for groups in homogeneous subsets are displayed.
KA1_8
Duncana
Area N
Subset for alpha = 0.05
1
2.00 3 .1583
3.00 3 .2134
1.00 3 .2188
Sig. .508
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA2_8
Duncana
Area N
Subset for alpha = 0.05
1 2
2.00 3 .2181
3.00 3 .2225
1.00 3 .3903
Sig. .945 1.000
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA3_8
Duncana
Area N
Subset for alpha = 0.05
1
2.00 3 .1811
3.00 3 .1909
1.00 3 .2881
Sig. .297
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA4_8
Duncana
Area N
Subset for alpha = 0.05
1
3.00 3 .2473
1.00 3 .2888
2.00 3 .3270
Sig. .608
Means for groups in homogeneous subsets are displayed.
KA1_9
Duncana
Area N
Subset for alpha = 0.05
1
2.00 3 .1407
1.00 3 .1488
3.00 3 .2004
Sig. .513
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA2_9
Duncana
Area N
Subset for alpha = 0.05
1
3.00 3 .1402
2.00 3 .1579
1.00 3 .2484
Sig. .121
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA3_9
Duncana
Area N
Subset for alpha = 0.05
1
2.00 3 .1637
3.00 3 .1699
1.00 3 .1907
Sig. .812
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA4_9
Duncana
Area N
Subset for alpha = 0.05
1
1.00 3 .1686
3.00 3 .2206
2.00 3 .2329
Sig. .679
Means for groups in homogeneous subsets are displayed.
KA1_10
Duncana
Area N
Subset for alpha = 0.05
1
1.00 3 .0849
2.00 3 .0960
3.00 3 .1502
Sig. .166
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA2_10
Duncana
Area N
Subset for alpha = 0.05
1
3.00 3 .1170
2.00 3 .1345
1.00 3 .2131
Sig. .089
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA3_10
Duncana
Area N
Subset for alpha = 0.05
1
2.00 3 .1050
3.00 3 .1056
1.00 3 .1310
Sig. .489
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA4_10
Duncana
Area N
Subset for alpha = 0.05
1
1.00 3 .1572
3.00 3 .2055
2.00 3 .2133
Sig. .726
Means for groups in homogeneous subsets are displayed.
KA1_11
Duncana
Area N
Subset for alpha = 0.05
1
1.00 3 .0782
2.00 3 .0848
3.00 3 .0920
Sig. .505
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA2_11
Duncana
Area N
Subset for alpha = 0.05
1
3.00 3 .0962
2.00 3 .0992
1.00 3 .1240
Sig. .251
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA3_11
Duncana
Area N
Subset for alpha = 0.05
1
3.00 3 .0814
1.00 3 .0849
2.00 3 .0909
Sig. .461
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA4_11
Duncana
Area N
Subset for alpha = 0.05
1
1.00 3 .0838
3.00 3 .1739
2.00 3 .1970
Sig. .434
Means for groups in homogeneous subsets are displayed.
KA1_12
Duncana
Area N
Subset for alpha = 0.05
1
1.00 3 .0658
3.00 3 .0699
2.00 3 .0735
Sig. .637
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA2_12
Duncana
Area N
Subset for alpha = 0.05
1
1.00 3 .0595
2.00 3 .0770
3.00 3 .0836
Sig. .103
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA3_12
Duncana
Area N
Subset for alpha = 0.05
1
1.00 3 .0696
3.00 3 .0700
2.00 3 .0727
Sig. .857
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA4_12
Duncana
Area N
Subset for alpha = 0.05
1
2.00 3 .0668
1.00 3 .0710
3.00 3 .0809
Sig. .393
Means for groups in homogeneous subsets are displayed.
Pengaruh Perlakuan terhadap Kadar Air _
Area _ Suhu
KA1_2
Duncana
Perlakuan N
Subset for alpha = 0.05
1 2
askorbat 3 .8608
metabisulfit 3 .8742 .8742
blaching 3 .8828
kontrol 3 .8834
Sig. .119 .284
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA2_2
Duncana
Perlakuan N
Subset for alpha = 0.05
1 2
metabisulfit 3 .8567
blaching 3 .8749
askorbat 3 .8753
kontrol 3 .8757
Sig. 1.000 .917
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA3_2
Duncana
Perlakuan N
Subset for alpha = 0.05
1 2
askorbat 3 .8649
metabisulfit 3 .8654
blaching 3 .8811 .8811
kontrol 3 .8879
Sig. .130 .476
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA1_3
Duncana
Perlakuan N
Subset for alpha = 0.05
1 2
askorbat 3 .8019
metabisulfit 3 .8282 .8282
kontrol 3 .8369 .8369
blaching 3 .8552
Sig. .127 .225
Means for groups in homogeneous subsets are displayed.
KA2_3
Duncana
Perlakuan N
Subset for alpha = 0.05
1 2
metabisulfit 3 .8089
kontrol 3 .8133
askorbat 3 .8387
blaching 3 .8419
Sig. .675 .755
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA3_3
Duncana
Perlakuan N
Subset for alpha = 0.05
1 2
metabisulfit 3 .8121
askorbat 3 .8294 .8294
blaching 3 .8386
kontrol 3 .8443
Sig. .112 .180
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA1_4
Duncana
Perlakuan N
Subset for alpha = 0.05
1
askorbat 3 .7429
kontrol 3 .7601
metabisulfit 3 .7780
blaching 3 .8080
Sig. .066
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA2_4
Duncana
Perlakuan N
Subset for alpha = 0.05
1 2
kontrol 3 .6970
metabisulfit 3 .7223
blaching 3 .7753
askorbat 3 .7796
Sig. .207 .821
Means for groups in homogeneous subsets are displayed.
KA3_4
Duncana
Perlakuan N
Subset for alpha = 0.05
1 2 3
metabisulfit 3 .7166
kontrol 3 .7566
askorbat 3 .7807 .7807
blaching 3 .7867
Sig. 1.000 .053 .584
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA1_5
Duncana
Perlakuan N
Subset for alpha = 0.05
1 2 3
askorbat 3 .5714
kontrol 3 .5727
metabisulfit 3 .6678
blaching 3 .7618
Sig. .974 1.000 1.000
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA2_5
Duncana
Perlakuan N
Subset for alpha = 0.05
1 2
kontrol 3 .4616
metabisulfit 3 .4890
blaching 3 .6578
askorbat 3 .7182
Sig. .706 .414
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA3_5
Duncana
Perlakuan N
Subset for alpha = 0.05
1
metabisulfit 3 .5875
kontrol 3 .6050
blaching 3 .6436
askorbat 3 .6551
Sig. .449
Means for groups in homogeneous subsets are displayed.
KA1_6
Duncana
Perlakuan N
Subset for alpha = 0.05
1 2
kontrol 3 .3938
askorbat 3 .4160
metabisulfit 3 .5671
blaching 3 .6592
Sig. .621 .066
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA2_6
Duncana
Perlakuan N
Subset for alpha = 0.05
1 2
kontrol 3 .1979
metabisulfit 3 .4093
blaching 3 .4898
askorbat 3 .5753
Sig. 1.000 .058
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA3_6
Duncana
Perlakuan N
Subset for alpha = 0.05
1
kontrol 3 .3747
metabisulfit 3 .4710
askorbat 3 .5237
blaching 3 .5308
Sig. .081
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA1_7
Duncana
Perlakuan N
Subset for alpha = 0.05
1 2
kontrol 3 .3075
askorbat 3 .3594
metabisulfit 3 .4265 .4265
blaching 3 .5188
Sig. .079 .143
Means for groups in homogeneous subsets are displayed.
KA2_7
Duncana
Perlakuan N
Subset for alpha = 0.05
1
kontrol 3 .1749
metabisulfit 3 .2293
blaching 3 .3390
askorbat 3 .4088
Sig. .068
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA3_7
Duncana
Perlakuan N
Subset for alpha = 0.05
1
kontrol 3 .2259
metabisulfit 3 .3598
askorbat 3 .3669
blaching 3 .3838
Sig. .095
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA1_8
Duncana
Perlakuan N
Subset for alpha = 0.05
1
kontrol 3 .2188
metabisulfit 3 .2881
askorbat 3 .2888
blaching 3 .3903
Sig. .106
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA2_8
Duncana
Perlakuan N
Subset for alpha = 0.05
1
kontrol 3 .1583
metabisulfit 3 .1811
blaching 3 .2181
askorbat 3 .3270
Sig. .112
Means for groups in homogeneous subsets are displayed.
KA3_8
Duncana
Perlakuan N
Subset for alpha = 0.05
1
metabisulfit 3 .1909
kontrol 3 .2134
blaching 3 .2225
askorbat 3 .2473
Sig. .660
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA1_9
Duncana
Perlakuan N
Subset for alpha = 0.05
1
kontrol 3 .1488
askorbat 3 .1686
metabisulfit 3 .1907
blaching 3 .2484
Sig. .319
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA2_9
Duncana
Perlakuan N
Subset for alpha = 0.05
1
kontrol 3 .1407
blaching 3 .1579
metabisulfit 3 .1637
askorbat 3 .2329
Sig. .386
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA3_9
Duncana
Perlakuan N
Subset for alpha = 0.05
1
blaching 3 .1402
metabisulfit 3 .1699
kontrol 3 .2004
askorbat 3 .2206
Sig. .548
Means for groups in homogeneous subsets are displayed.
KA1_10
Duncana
Perlakuan N
Subset for alpha = 0.05
1
kontrol 3 .0849
metabisulfit 3 .1310
askorbat 3 .1572
blaching 3 .2131
Sig. .077
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA2_10
Duncana
Perlakuan N
Subset for alpha = 0.05
1
kontrol 3 .0960
metabisulfit 3 .1050
blaching 3 .1345
askorbat 3 .2133
Sig. .245
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA3_10
Duncana
Perlakuan N
Subset for alpha = 0.05
1
metabisulfit 3 .1056
blaching 3 .1170
kontrol 3 .1502
askorbat 3 .2055
Sig. .345
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA1_11
Duncana
Perlakuan N
Subset for alpha = 0.05
1 2
kontrol 3 .0782
askorbat 3 .0838
metabisulfit 3 .0849
blaching 3 .1240
Sig. .710 1.000
Means for groups in homogeneous subsets are displayed.
KA2_11
Duncana
Perlakuan N
Subset for alpha = 0.05
1
kontrol 3 .0848
metabisulfit 3 .0909
blaching 3 .0992
askorbat 3 .1970
Sig. .269
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA3_11
Duncana
Perlakuan N
Subset for alpha = 0.05
1
metabisulfit 3 .0814
kontrol 3 .0920
blaching 3 .0962
askorbat 3 .1739
Sig. .266
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA1_12
Duncana
Perlakuan N
Subset for alpha = 0.05
1
blaching 3 .0595
kontrol 3 .0658
metabisulfit 3 .0696
askorbat 3 .0710
Sig. .507
Means for groups in homogeneous subsets are displayed.
a. Uses Harmonic Mean Sample Size = 3,000.
KA2_12
Duncana
Perlakuan N
Subset for alpha = 0.05
1
askorbat 3 .0668
metabisulfit 3 .0727
kontrol 3 .0735
blaching 3 .0770
Sig. .486
Means for groups in homogeneous subsets are displayed.
KA3_12
Duncana
Perlakuan N
Subset for alpha = 0.05
1
kontrol 3 .0699
metabisulfit 3 .0700
askorbat 3 .0809
blaching 3 .0836
Sig. .396
Means for groups in homogeneous subsets are displayed.
1.
Kadar air
1.1 Kadar Air Kontrol
𝑦 =
1,077
1 + 𝑒
1,139(𝑥−2,008)R
2= 0,993
Turunan Pertama
𝑑𝑦
𝑑𝑥 =
a
v =
a
′. v − a. v
′
𝑣
2a= 1,077
a’= 0
𝑣 = 1 + 𝑒
1,139(𝑥−2,008)𝑣 = 1 + 𝑒
1,139𝑥−2,287𝑣
′
= 1,139𝑒
1,139𝑥−2,287y
′
=
𝑎
′. 𝑣 − 𝑎. 𝑣
𝑣
2′
y
′
=
−1,077.1,139𝑒
(1 + 𝑒
1,139𝑥−2,2871,139𝑥−2,287)
2y
′
=
−1,227𝑒
1,139𝑥−2,2871 + 2𝑒
1,139𝑥−2,287+ 𝑒
2(1,139𝑥−2,287)y
′
=
−1,227𝑒
1,139𝑥−2,2871 + 2𝑒
1,139𝑥−2,287+ 𝑒
2,278𝑥−4,574)1.2
Kadar Air Blanching
𝑦 =
1 + 𝑒
1,078(𝑥−2,771)0,969
R
2= 0,999
Turunan Pertama
𝑑𝑦
𝑑𝑥 =
a
v =
a
′. v − a. v
′
𝑣
2a= 0,969
a’= 0
𝑣 = 1 + 𝑒
1,078(𝑥−2,771)𝑣 = 1 + 𝑒
1,078𝑥−2,987𝑣
′
= 1,078𝑒
1,078𝑥−2,987y
′
=
𝑎
′. 𝑣 − 𝑎. 𝑣
′
𝑣
2y
′
=
−0,969.1,078𝑒
(1 + 𝑒
1,078𝑥−2,9871,078𝑥−2,987)
2y
′
=
−1,045𝑒
1,078𝑥−2,9871 + 2𝑒
1,078𝑥−2,987+ 𝑒
2(1,078𝑥−2,987)y
′
=
−1,045𝑒
1,078𝑥−2,9871 + 2𝑒
1,078𝑥−2,987+ 𝑒
2,156𝑥−5,9741.3
Kadar Air Metabisulfit
𝑦 =
1,003
1 + 𝑒
1,005(𝑥−2,388)R
2= 0,999
Turunan Pertama
𝑑𝑦
𝑑𝑥 =
a
v =
a
′. v − a. v
′
𝑣
2a= 1,003
a’= 0
𝑣 = 1 + 𝑒
1,005(𝑥−2,388)𝑣 = 1 + 𝑒
1,005𝑥−2,399𝑣
′
= 1,005𝑒
1,005𝑥−2,399y
′
=
𝑎
′. 𝑣 − 𝑎. 𝑣
𝑣
2′
y
′
=
−1,003.1,005𝑒
(1 + 𝑒
1,005𝑥−2,3991,005𝑥−2,399)
2y
′
=
−1,008𝑒
1,005𝑥−2,3991 + 2𝑒
1,005𝑥−2,399+ 𝑒
2(1,005𝑥−2.399)y
′
=
−1,008𝑒
1,005𝑥−2,3991.4
Kadar Air Asam Askorbat
𝑦 =
1 + 𝑒
0,862(𝑥−2,514)1,035
R
2= 0,998
Turunan Pertama
𝑑𝑦
𝑑𝑥 =
a
v =
a
′. v − a. v
′
𝑣
2a= 1,035
a’= 0
𝑣 = 1 + 𝑒
0,862(𝑥−2,514)𝑣 = 1 + 𝑒
0,862𝑥−2,167𝑣
′
= 0,862𝑒
0,862𝑥−2,167y
′
=
𝑎
′. 𝑣 − 𝑎. 𝑣
𝑣
2′
y
′
=
−1,035.0,862𝑒
(1 + 𝑒
0,862𝑥−2,1670,862𝑥−2,167)
2y
′
=
−0,892𝑒
0,862𝑥−2,1671 + 2𝑒
0,862𝑥−2,167+ 𝑒
2(0,862𝑥−2,167)y
′
=
−0,892𝑒
0,862𝑥−2,1671 + 2𝑒
0,862𝑥−2,167+ 𝑒
1,724𝑥−4,3342 Tekstur
2.1 Tekstur Kontrol
𝑦 =
27692,33
1 + 𝑒
−0,2672(𝑥−13,4994)R
2= 0,993
Turunan Pertama
𝑑𝑦
𝑑𝑥 =
a
v =
a
′. v − a. v
′
𝑣
2a= 27692.33
a’= 0
𝑣 = 1 + 𝑒
−0,267(𝑥−13,499)𝑣 = 1 + 𝑒
−0,267𝑥+3,604𝑣
′= −0,267𝑒
−0,267𝑥+3,604y
′
=
𝑎
′. 𝑣 − 𝑎. 𝑣
𝑣
2′
y
′
=
−27692,33. −0,267𝑒
(1 + 𝑒
−0,267𝑥+3,604−0,267𝑥+3,604)
2y
′
=
7393,85𝑒
−0,267𝑥+3,6041 + 2𝑒
−0,267𝑥+3,604+ 𝑒
2(−0,267𝑥+3,604)y
′
=
7393,85𝑒
−0,267𝑥+3,6041 + 2𝑒
−0,267𝑥+3,604+ 𝑒
−0,534𝑥+7,2082.2 Tekstur Blanching
𝑦 =
25682,24
1 + 𝑒
−0,272(𝑥−12,994)R
2= 0,997
Turunan Pertama
𝑑𝑦
𝑑𝑥 =
a
v =
a
′. v − a. v
′
𝑣
2a=
25682,24
a’= 0
𝑣 = 1 + 𝑒
−0,272(𝑥−12,994)𝑣 = 1 + 𝑒
−0,272𝑥+3,534𝑣
′= −0,272𝑒
−0,272𝑥+3,534y
′
=
𝑎
′. 𝑣 − 𝑎. 𝑣
𝑣
2′
y
′
=
−25682,24. −0,272𝑒
(1 + 𝑒
−0,272𝑥+3,534−0,272𝑥+3,534)
2y
′
=
6985,57𝑒
−0,272𝑥+3,534y
′
=
7393,85𝑒
−0,267𝑥+3,6041 + 2𝑒
−0,272𝑥+3,534+ 𝑒
−0,544𝑥+7,0682.3 Tekstur Metabisulfit
𝑦 =
1 + 𝑒
24879,24
0,285(𝑥−12,94)R
2= 0,997
Turunan Pertama
𝑑𝑦
𝑑𝑥
=
a
v
=
a
′. v − a. v
′
𝑣
2a=
24879,24
a’= 0
𝑣 = 1 + 𝑒
0,285(𝑥−12,94)𝑣 = 1 + 𝑒
0,285𝑥−3,688𝑣
′= 0.285𝑒
0,285𝑥−3,688y
′
=
𝑎
′. 𝑣 − 𝑎. 𝑣
𝑣
2′
y
′
=
−24879,24.0,285𝑒
(1 + 𝑒
0,285𝑥−3,6880,285𝑥−3,688)
2y
′
=
7090,58𝑒
0,285𝑥−3,6881 + 2𝑒
0,285𝑥−3,688+ 𝑒
2(0,285𝑥−3,688)y
′
=
7090,58𝑒
0,285𝑥−3,6881 + 2𝑒
0,285𝑥−3,688+ 𝑒
0,57𝑥+7,3762.4 Tekstur Askorbat
𝑦 =
1 + 𝑒
23286,17
0,287(𝑥−12,83)R
2= 0,996
Turunan Pertama
𝑑𝑦
𝑑𝑥 =
a
v =
a
′. v − a. v
′
𝑣
2a=
23286,17
a’= 0
𝑣 = 1 + 𝑒
0,287(𝑥−12,83)𝑣 = 1 + 𝑒
0,287𝑥−1,058𝑣
′= 0.287𝑒
0,287𝑥−1,058y
′
=
𝑎
′. 𝑣 − 𝑎. 𝑣
𝑣
2′
y
′
=
−23286.0,287𝑒
(1 + 𝑒
0,287𝑥−1,0580,287𝑥−1,058)
2y
′
=
6683,08𝑒
0,287𝑥−1,0581 + 2𝑒
0,287𝑥−1,058+ 𝑒
2(0,287𝑥−1,058)y
′
=
6683,08𝑒
0,287𝑥−1,0581 + 2𝑒
0,287𝑥−1,058+ 𝑒
0,574𝑥−2,1163.
AW
3.1
AW Kontrol
𝑦 =
0,977
1 + 𝑒
1,51(𝑥−4,302)R
2= 1
3.2
AW Blanching
𝑦 =
1,025
1 + 𝑒
1,046(𝑥−3,985)R
2= 0,999
3.3
AW Metabisulfit
𝑦 =
1,037
1 + 𝑒
1,094(𝑥−3,805)R
2= 0,994
𝑦 =
1 + 𝑒
0,925(𝑥−3,228)1,084
R
2= 0,996
4.
Rehidrasi
4.1
Rehidrasi Kontrol
𝑦 =
1 + 𝑒
1,51(𝑥−4,302)0,977
R
2= 1
4.2
Rehidrasi blanching
𝑦 =
1,025
1 + 𝑒
1,046(𝑥−3,985)R
2= 0,999
4.3
Rehidrasi Metabisulfit
𝑦 =
1,037
1 + 𝑒
1,094(𝑥−3,805)R
2= 0,994
4.4
Rehidrasi askorbat
𝑦 =
1,084
1 + 𝑒
0,925(𝑥−3,228)R
2= 0,996
5.
Warna L
5.1
Warna L Kontrol
𝑦 =
1 + 𝑒
0,174(𝑥−12,044)90,091
R
2= 1
5.2
Warna L Blanching
𝑦 =
1 + 𝑒
92,409
0,38(𝑥−4,282)R
2= 0,997
5.3
Warna L Metabisulfit
𝑦 =
1 + 𝑒
88,386
0,337(𝑥−6,779)R
2= 0,999
5.4
Warna L Askorbat
𝑦 =
1 + 𝑒
0,907(𝑥−2,837)87,6
R
2= 0,996
6.
Warna a*
6.1
Warna a* Kontrol
𝑦 =
5,144
1 + 𝑒
−1,43(𝑥−2,01)R
2= 0,998
6.2
Warna a* Blanching
𝑦 =
1 + 𝑒
−4,014(𝑥−2,572)2,722
R
2= 0,998
6.3
Warna a* Metabisulfit
𝑦 =
1 + 𝑒
−1,312(𝑥−3,471)6,894
R
2= 0,997
6.4
Warna a* askorbat
𝑦 =
20,859
1 + 𝑒
−1,388(𝑥−2,577)R
2= 0,987
7.
Warna b*
7.1
Warna b* Kontrol
𝑦 =
28,329
1 + 𝑒
−0,856(𝑥−0,361)R
2= 0,999
7.2
Warna b* Blanching
𝑦 =
1 + 𝑒
−0,458(𝑥−1,252)31,616
7.3
Warna b* Metabisulfit
𝑦 =
30.014
1 + 𝑒
−0,806(𝑥−2,33)R
2= 0,998
7.4
Warna b* Askorbat
𝑦 =
1 + 𝑒
−0,271(𝑥−4,271)35,126
